Datasets:

microsoft
/

FStarDataSet-V2

Dataset card Data Studio Files Files and versions Community

Split (3)

train · 30.9k rows

file_name stringlengths 5 52	name stringlengths 4 95	original_source_type stringlengths 0 23k	source_type stringlengths 9 23k	source_definition stringlengths 9 57.9k	source dict	source_range dict	file_context stringlengths 0 721k	dependencies dict	opens_and_abbrevs listlengths 2 94	vconfig dict	interleaved bool 1 class	verbose_type stringlengths 1 7.42k	effect stringclasses 118 values	effect_flags sequencelengths 0 2	mutual_with sequencelengths 0 11	ideal_premises sequencelengths 0 236	proof_features sequencelengths 0 1	is_simple_lemma bool 2 classes	is_div bool 2 classes	is_proof bool 2 classes	is_simply_typed bool 2 classes	is_type bool 2 classes	partial_definition stringlengths 5 3.99k	completed_definiton stringlengths 1 1.63M	isa_cross_project_example bool 1 class
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Store128_word4_buffer_index	val va_wpProof_Store128_word4_buffer_index : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Store128_word4_buffer_index h src base offset t b index va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store128_word4_buffer_index h src base offset t) ([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Store128_word4_buffer_index : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Store128_word4_buffer_index h src base offset t b index va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store128_word4_buffer_index h src base offset t) ([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 767, "start_col": 0, "start_line": 759 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> b: Vale.PPC64LE.Memory.buffer128 -> index: Prims.int -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Memory.buffer128", "Prims.int", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_Mod_mem", "Vale.PPC64LE.QuickCode.va_mod_heaplet", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_mem", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_heaplet", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Store128_word4_buffer_index", "Vale.PPC64LE.InsVector.va_code_Store128_word4_buffer_index" ]	[]	false	false	false	false	false	let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k =	let va_sM, va_f0 = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_RotWord	val va_code_RotWord : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_code	val va_code_RotWord : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_code	let va_code_RotWord dst src1 src2 = (Ins (S.RotWord dst src1 src2))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 33, "end_line": 1061, "start_col": 0, "start_line": 1060 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma1 (va_code_SHA256_Sigma1 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsbox [@ "opaque_to_smt"] let va_code_Vsbox dst src = (Ins (S.Vsbox dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vsbox dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsbox va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vsbox) (va_code_Vsbox dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsbox dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsbox dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsbox dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsbox (va_code_Vsbox dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- RotWord	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.RotWord", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_RotWord dst src1 src2 =	(Ins (S.RotWord dst src1 src2))	false
Hacl.Impl.Poly1305.fst	Hacl.Impl.Poly1305.precomp_inv_zeros	val precomp_inv_zeros: #s:field_spec -> precomp_b:lbuffer (limb s) (precomplen s) -> h:mem -> Lemma (requires as_seq h precomp_b == Lib.Sequence.create (v (precomplen s)) (limb_zero s)) (ensures F32xN.load_precompute_r_post #(width s) h precomp_b)	val precomp_inv_zeros: #s:field_spec -> precomp_b:lbuffer (limb s) (precomplen s) -> h:mem -> Lemma (requires as_seq h precomp_b == Lib.Sequence.create (v (precomplen s)) (limb_zero s)) (ensures F32xN.load_precompute_r_post #(width s) h precomp_b)	let precomp_inv_zeros #s precomp_b h = let r_b = gsub precomp_b 0ul (nlimb s) in let rn_b = gsub precomp_b (2ul ! nlimb s) (nlimb s) in let rn_b5 = gsub precomp_b (3ul ! nlimb s) (nlimb s) in as_seq_gsub h precomp_b 0ul (nlimb s); as_seq_gsub h precomp_b (2ul ! nlimb s) (nlimb s); as_seq_gsub h precomp_b (3ul ! nlimb s) (nlimb s); fmul_precomp_inv_zeros #s precomp_b h; Hacl.Spec.Poly1305.Field32xN.Lemmas.precomp_r5_zeros (width s); LSeq.eq_intro (feval h r_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h rn_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h rn_b5) (LSeq.create (width s) 0); assert (F32xN.as_tup5 #(width s) h rn_b5 == F32xN.precomp_r5 (F32xN.as_tup5 h rn_b)); assert (feval h rn_b == Vec.compute_rw (feval h r_b).[0])	{ "file_name": "code/poly1305/Hacl.Impl.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 59, "end_line": 120, "start_col": 0, "start_line": 105 }	module Hacl.Impl.Poly1305 open FStar.HyperStack open FStar.HyperStack.All open FStar.Mul open Lib.IntTypes open Lib.Buffer open Lib.ByteBuffer open Hacl.Impl.Poly1305.Fields open Hacl.Impl.Poly1305.Bignum128 module ST = FStar.HyperStack.ST module BSeq = Lib.ByteSequence module LSeq = Lib.Sequence module S = Spec.Poly1305 module Vec = Hacl.Spec.Poly1305.Vec module Equiv = Hacl.Spec.Poly1305.Equiv module F32xN = Hacl.Impl.Poly1305.Field32xN friend Lib.LoopCombinators let _: squash (inversion field_spec) = allow_inversion field_spec #reset-options "--z3rlimit 50 --max_fuel 0 --max_ifuel 0 --using_facts_from '* -FStar.Seq' --record_options" inline_for_extraction noextract let get_acc #s (ctx:poly1305_ctx s) : Stack (felem s) (requires fun h -> live h ctx) (ensures fun h0 acc h1 -> h0 == h1 /\ live h1 acc /\ acc == gsub ctx 0ul (nlimb s)) = sub ctx 0ul (nlimb s) inline_for_extraction noextract let get_precomp_r #s (ctx:poly1305_ctx s) : Stack (precomp_r s) (requires fun h -> live h ctx) (ensures fun h0 pre h1 -> h0 == h1 /\ live h1 pre /\ pre == gsub ctx (nlimb s) (precomplen s)) = sub ctx (nlimb s) (precomplen s) unfold let op_String_Access #a #len = LSeq.index #a #len let as_get_acc #s h ctx = (feval h (gsub ctx 0ul (nlimb s))).[0] let as_get_r #s h ctx = (feval h (gsub ctx (nlimb s) (nlimb s))).[0] let state_inv_t #s h ctx = felem_fits h (gsub ctx 0ul (nlimb s)) (2, 2, 2, 2, 2) /\ F32xN.load_precompute_r_post #(width s) h (gsub ctx (nlimb s) (precomplen s)) #reset-options "--z3rlimit 100 --max_fuel 0 --max_ifuel 0 --record_options" let reveal_ctx_inv' #s ctx ctx' h0 h1 = let acc_b = gsub ctx 0ul (nlimb s) in let acc_b' = gsub ctx' 0ul (nlimb s) in let r_b = gsub ctx (nlimb s) (nlimb s) in let r_b' = gsub ctx' (nlimb s) (nlimb s) in let precom_b = gsub ctx (nlimb s) (precomplen s) in let precom_b' = gsub ctx' (nlimb s) (precomplen s) in as_seq_gsub h0 ctx 0ul (nlimb s); as_seq_gsub h1 ctx 0ul (nlimb s); as_seq_gsub h0 ctx (nlimb s) (nlimb s); as_seq_gsub h1 ctx (nlimb s) (nlimb s); as_seq_gsub h0 ctx (nlimb s) (precomplen s); as_seq_gsub h1 ctx (nlimb s) (precomplen s); as_seq_gsub h0 ctx' 0ul (nlimb s); as_seq_gsub h1 ctx' 0ul (nlimb s); as_seq_gsub h0 ctx' (nlimb s) (nlimb s); as_seq_gsub h1 ctx' (nlimb s) (nlimb s); as_seq_gsub h0 ctx' (nlimb s) (precomplen s); as_seq_gsub h1 ctx' (nlimb s) (precomplen s); assert (as_seq h0 acc_b == as_seq h1 acc_b'); assert (as_seq h0 r_b == as_seq h1 r_b'); assert (as_seq h0 precom_b == as_seq h1 precom_b') val fmul_precomp_inv_zeros: #s:field_spec -> precomp_b:lbuffer (limb s) (precomplen s) -> h:mem -> Lemma (requires as_seq h precomp_b == Lib.Sequence.create (v (precomplen s)) (limb_zero s)) (ensures F32xN.fmul_precomp_r_pre #(width s) h precomp_b) let fmul_precomp_inv_zeros #s precomp_b h = let r_b = gsub precomp_b 0ul (nlimb s) in let r_b5 = gsub precomp_b (nlimb s) (nlimb s) in as_seq_gsub h precomp_b 0ul (nlimb s); as_seq_gsub h precomp_b (nlimb s) (nlimb s); Hacl.Spec.Poly1305.Field32xN.Lemmas.precomp_r5_zeros (width s); LSeq.eq_intro (feval h r_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h r_b5) (LSeq.create (width s) 0); assert (F32xN.as_tup5 #(width s) h r_b5 == F32xN.precomp_r5 (F32xN.as_tup5 h r_b)) val precomp_inv_zeros: #s:field_spec -> precomp_b:lbuffer (limb s) (precomplen s) -> h:mem -> Lemma (requires as_seq h precomp_b == Lib.Sequence.create (v (precomplen s)) (limb_zero s)) (ensures F32xN.load_precompute_r_post #(width s) h precomp_b)	{ "checked_file": "/", "dependencies": [ "Spec.Poly1305.fst.checked", "prims.fst.checked", "Meta.Attribute.fst.checked", "Lib.Sequence.fsti.checked", "Lib.Loops.fsti.checked", "Lib.LoopCombinators.fst.checked", "Lib.IntTypes.fsti.checked", "Lib.ByteSequence.fsti.checked", "Lib.ByteBuffer.fsti.checked", "Lib.Buffer.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.Lemmas.fst.checked", "Hacl.Spec.Poly1305.Equiv.fst.checked", "Hacl.Impl.Poly1305.Lemmas.fst.checked", "Hacl.Impl.Poly1305.Fields.fst.checked", "Hacl.Impl.Poly1305.Field32xN.fst.checked", "Hacl.Impl.Poly1305.Bignum128.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.Math.Lemmas.fst.checked", "FStar.HyperStack.ST.fsti.checked", "FStar.HyperStack.All.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": true, "source_file": "Hacl.Impl.Poly1305.fst" }	[ { "abbrev": true, "full_module": "Hacl.Impl.Poly1305.Field32xN", "short_module": "F32xN" }, { "abbrev": true, "full_module": "Hacl.Spec.Poly1305.Equiv", "short_module": "Equiv" }, { "abbrev": true, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": "Vec" }, { "abbrev": true, "full_module": "Spec.Poly1305", "short_module": "S" }, { "abbrev": true, "full_module": "Lib.Sequence", "short_module": "LSeq" }, { "abbrev": true, "full_module": "Lib.ByteSequence", "short_module": "BSeq" }, { "abbrev": true, "full_module": "FStar.HyperStack.ST", "short_module": "ST" }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Bignum128", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Fields", "short_module": null }, { "abbrev": false, "full_module": "Lib.ByteBuffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.All", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": true, "full_module": "Spec.Poly1305", "short_module": "S" }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Fields", "short_module": null }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.All", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 150, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	precomp_b: Lib.Buffer.lbuffer (Hacl.Impl.Poly1305.Fields.limb s) (Hacl.Impl.Poly1305.Fields.precomplen s) -> h: FStar.Monotonic.HyperStack.mem -> FStar.Pervasives.Lemma (requires Lib.Buffer.as_seq h precomp_b == Lib.Sequence.create (Lib.IntTypes.v (Hacl.Impl.Poly1305.Fields.precomplen s)) (Hacl.Impl.Poly1305.Fields.limb_zero s)) (ensures Hacl.Impl.Poly1305.Field32xN.load_precompute_r_post h precomp_b)	FStar.Pervasives.Lemma	[ "lemma" ]	[]	[ "Hacl.Impl.Poly1305.Fields.field_spec", "Lib.Buffer.lbuffer", "Hacl.Impl.Poly1305.Fields.limb", "Hacl.Impl.Poly1305.Fields.precomplen", "FStar.Monotonic.HyperStack.mem", "Prims._assert", "Prims.eq2", "Lib.Sequence.lseq", "Hacl.Spec.Poly1305.Vec.pfelem", "Hacl.Impl.Poly1305.Fields.width", "Hacl.Impl.Poly1305.Fields.feval", "Hacl.Spec.Poly1305.Vec.compute_rw", "Hacl.Impl.Poly1305.op_String_Access", "Spec.Poly1305.felem", "Prims.unit", "Hacl.Spec.Poly1305.Field32xN.felem5", "Hacl.Impl.Poly1305.Field32xN.as_tup5", "Hacl.Spec.Poly1305.Field32xN.precomp_r5", "Lib.Sequence.eq_intro", "Lib.Sequence.create", "Hacl.Spec.Poly1305.Field32xN.Lemmas.precomp_r5_zeros", "Hacl.Impl.Poly1305.fmul_precomp_inv_zeros", "Lib.Buffer.as_seq_gsub", "Lib.Buffer.MUT", "Lib.IntTypes.op_Star_Bang", "Lib.IntTypes.U32", "Lib.IntTypes.PUB", "FStar.UInt32.__uint_to_t", "Hacl.Impl.Poly1305.Fields.nlimb", "Lib.Buffer.lbuffer_t", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "FStar.UInt32.uint_to_t", "FStar.UInt32.t", "Lib.Buffer.gsub" ]	[]	true	false	true	false	false	let precomp_inv_zeros #s precomp_b h =	let r_b = gsub precomp_b 0ul (nlimb s) in let rn_b = gsub precomp_b (2ul ! nlimb s) (nlimb s) in let rn_b5 = gsub precomp_b (3ul ! nlimb s) (nlimb s) in as_seq_gsub h precomp_b 0ul (nlimb s); as_seq_gsub h precomp_b (2ul ! nlimb s) (nlimb s); as_seq_gsub h precomp_b (3ul ! nlimb s) (nlimb s); fmul_precomp_inv_zeros #s precomp_b h; Hacl.Spec.Poly1305.Field32xN.Lemmas.precomp_r5_zeros (width s); LSeq.eq_intro (feval h r_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h rn_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h rn_b5) (LSeq.create (width s) 0); assert (F32xN.as_tup5 #(width s) h rn_b5 == F32xN.precomp_r5 (F32xN.as_tup5 h rn_b)); assert (feval h rn_b == Vec.compute_rw (feval h r_b).[ 0 ])	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_RotWord	val va_codegen_success_RotWord : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_pbool	val va_codegen_success_RotWord : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_pbool	let va_codegen_success_RotWord dst src1 src2 = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 1065, "start_col": 0, "start_line": 1064 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma1 (va_code_SHA256_Sigma1 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsbox [@ "opaque_to_smt"] let va_code_Vsbox dst src = (Ins (S.Vsbox dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vsbox dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsbox va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vsbox) (va_code_Vsbox dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsbox dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsbox dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsbox dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsbox (va_code_Vsbox dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- RotWord [@ "opaque_to_smt"] let va_code_RotWord dst src1 src2 = (Ins (S.RotWord dst src1 src2))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_RotWord dst src1 src2 =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Load128_buffer	val va_lemma_Load128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Load128_buffer h dst base offset t) va_s0 /\ va_is_src_heaplet h va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_reg_opr base va_s0 /\ va_is_src_reg_opr offset va_s0 /\ va_get_ok va_s0 /\ Vale.PPC64LE.Decls.valid_src_addr #Vale.PPC64LE.Memory.vuint128 (va_eval_heaplet va_s0 h) b index /\ Vale.PPC64LE.Memory.valid_layout_buffer #Vale.PPC64LE.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\ Vale.PPC64LE.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr va_s0 base + va_eval_reg_opr va_s0 offset == Vale.PPC64LE.Memory.buffer_addr #Vale.PPC64LE.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.PPC64LE.Decls.buffer128_read b index (va_eval_heaplet va_sM h) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_Load128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Load128_buffer h dst base offset t) va_s0 /\ va_is_src_heaplet h va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_reg_opr base va_s0 /\ va_is_src_reg_opr offset va_s0 /\ va_get_ok va_s0 /\ Vale.PPC64LE.Decls.valid_src_addr #Vale.PPC64LE.Memory.vuint128 (va_eval_heaplet va_s0 h) b index /\ Vale.PPC64LE.Memory.valid_layout_buffer #Vale.PPC64LE.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\ Vale.PPC64LE.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr va_s0 base + va_eval_reg_opr va_s0 offset == Vale.PPC64LE.Memory.buffer_addr #Vale.PPC64LE.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.PPC64LE.Decls.buffer128_read b index (va_eval_heaplet va_sM h) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 583, "start_col": 0, "start_line": 576 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> h: Vale.PPC64LE.Decls.va_operand_heaplet -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> b: Vale.PPC64LE.Memory.buffer128 -> index: Prims.int -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Memory.buffer128", "Prims.int", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "Prims.unit", "Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full", "Vale.PPC64LE.Decls.from_heap_impl", "Vale.PPC64LE.Machine_s.__proj__Mkstate__item__ms_heap", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Load128", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Load128_buffer" ]	[]	false	false	false	false	false	let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index =	va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Load128_byte16_buffer_index	val va_wpProof_Load128_byte16_buffer_index : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load128_byte16_buffer_index h dst base offset t) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Load128_byte16_buffer_index : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load128_byte16_buffer_index h dst base offset t) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 832, "start_col": 0, "start_line": 825 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> b: Vale.PPC64LE.Memory.buffer128 -> index: Prims.int -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Memory.buffer128", "Prims.int", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Load128_byte16_buffer_index", "Vale.PPC64LE.InsVector.va_code_Load128_byte16_buffer_index" ]	[]	false	false	false	false	false	let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k =	let va_sM, va_f0 = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_Vcipherlast	val va_codegen_success_Vcipherlast : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_pbool	val va_codegen_success_Vcipherlast : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_pbool	let va_codegen_success_Vcipherlast dst src1 src2 = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 1123, "start_col": 0, "start_line": 1122 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma1 (va_code_SHA256_Sigma1 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsbox [@ "opaque_to_smt"] let va_code_Vsbox dst src = (Ins (S.Vsbox dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vsbox dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsbox va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vsbox) (va_code_Vsbox dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsbox dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsbox dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsbox dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsbox (va_code_Vsbox dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- RotWord [@ "opaque_to_smt"] let va_code_RotWord dst src1 src2 = (Ins (S.RotWord dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_RotWord dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_RotWord va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_RotWord) (va_code_RotWord dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.RotWord dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.RotWord dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_RotWord dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_RotWord (va_code_RotWord dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipher [@ "opaque_to_smt"] let va_code_Vcipher dst src1 src2 = (Ins (S.Vcipher dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcipher dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcipher va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcipher) (va_code_Vcipher dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcipher dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcipher dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcipher dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcipher (va_code_Vcipher dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipherlast [@ "opaque_to_smt"] let va_code_Vcipherlast dst src1 src2 = (Ins (S.Vcipherlast dst src1 src2))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Vcipherlast dst src1 src2 =	(va_ttrue ())	false
Hacl.Impl.Poly1305.fst	Hacl.Impl.Poly1305.poly1305_update_nblocks	val poly1305_update_nblocks: #s:field_spec -> p:precomp_r s -> b:lbuffer uint8 (blocklen s) -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h b /\ live h acc /\ disjoint acc p /\ disjoint acc b /\ felem_fits h acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (3, 3, 3, 3, 3) /\ feval h1 acc == Vec.poly1305_update_nblocks #(width s) (feval h0 (gsub p 10ul 5ul)) (as_seq h0 b) (feval h0 acc))	val poly1305_update_nblocks: #s:field_spec -> p:precomp_r s -> b:lbuffer uint8 (blocklen s) -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h b /\ live h acc /\ disjoint acc p /\ disjoint acc b /\ felem_fits h acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (3, 3, 3, 3, 3) /\ feval h1 acc == Vec.poly1305_update_nblocks #(width s) (feval h0 (gsub p 10ul 5ul)) (as_seq h0 b) (feval h0 acc))	let poly1305_update_nblocks #s pre b acc = push_frame (); let e = create (nlimb s) (limb_zero s) in poly1305_encode_blocks e b; fmul_rn acc acc pre; fadd acc acc e; pop_frame ()	{ "file_name": "code/poly1305/Hacl.Impl.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 14, "end_line": 319, "start_col": 0, "start_line": 313 }	module Hacl.Impl.Poly1305 open FStar.HyperStack open FStar.HyperStack.All open FStar.Mul open Lib.IntTypes open Lib.Buffer open Lib.ByteBuffer open Hacl.Impl.Poly1305.Fields open Hacl.Impl.Poly1305.Bignum128 module ST = FStar.HyperStack.ST module BSeq = Lib.ByteSequence module LSeq = Lib.Sequence module S = Spec.Poly1305 module Vec = Hacl.Spec.Poly1305.Vec module Equiv = Hacl.Spec.Poly1305.Equiv module F32xN = Hacl.Impl.Poly1305.Field32xN friend Lib.LoopCombinators let _: squash (inversion field_spec) = allow_inversion field_spec #reset-options "--z3rlimit 50 --max_fuel 0 --max_ifuel 0 --using_facts_from '* -FStar.Seq' --record_options" inline_for_extraction noextract let get_acc #s (ctx:poly1305_ctx s) : Stack (felem s) (requires fun h -> live h ctx) (ensures fun h0 acc h1 -> h0 == h1 /\ live h1 acc /\ acc == gsub ctx 0ul (nlimb s)) = sub ctx 0ul (nlimb s) inline_for_extraction noextract let get_precomp_r #s (ctx:poly1305_ctx s) : Stack (precomp_r s) (requires fun h -> live h ctx) (ensures fun h0 pre h1 -> h0 == h1 /\ live h1 pre /\ pre == gsub ctx (nlimb s) (precomplen s)) = sub ctx (nlimb s) (precomplen s) unfold let op_String_Access #a #len = LSeq.index #a #len let as_get_acc #s h ctx = (feval h (gsub ctx 0ul (nlimb s))).[0] let as_get_r #s h ctx = (feval h (gsub ctx (nlimb s) (nlimb s))).[0] let state_inv_t #s h ctx = felem_fits h (gsub ctx 0ul (nlimb s)) (2, 2, 2, 2, 2) /\ F32xN.load_precompute_r_post #(width s) h (gsub ctx (nlimb s) (precomplen s)) #reset-options "--z3rlimit 100 --max_fuel 0 --max_ifuel 0 --record_options" let reveal_ctx_inv' #s ctx ctx' h0 h1 = let acc_b = gsub ctx 0ul (nlimb s) in let acc_b' = gsub ctx' 0ul (nlimb s) in let r_b = gsub ctx (nlimb s) (nlimb s) in let r_b' = gsub ctx' (nlimb s) (nlimb s) in let precom_b = gsub ctx (nlimb s) (precomplen s) in let precom_b' = gsub ctx' (nlimb s) (precomplen s) in as_seq_gsub h0 ctx 0ul (nlimb s); as_seq_gsub h1 ctx 0ul (nlimb s); as_seq_gsub h0 ctx (nlimb s) (nlimb s); as_seq_gsub h1 ctx (nlimb s) (nlimb s); as_seq_gsub h0 ctx (nlimb s) (precomplen s); as_seq_gsub h1 ctx (nlimb s) (precomplen s); as_seq_gsub h0 ctx' 0ul (nlimb s); as_seq_gsub h1 ctx' 0ul (nlimb s); as_seq_gsub h0 ctx' (nlimb s) (nlimb s); as_seq_gsub h1 ctx' (nlimb s) (nlimb s); as_seq_gsub h0 ctx' (nlimb s) (precomplen s); as_seq_gsub h1 ctx' (nlimb s) (precomplen s); assert (as_seq h0 acc_b == as_seq h1 acc_b'); assert (as_seq h0 r_b == as_seq h1 r_b'); assert (as_seq h0 precom_b == as_seq h1 precom_b') val fmul_precomp_inv_zeros: #s:field_spec -> precomp_b:lbuffer (limb s) (precomplen s) -> h:mem -> Lemma (requires as_seq h precomp_b == Lib.Sequence.create (v (precomplen s)) (limb_zero s)) (ensures F32xN.fmul_precomp_r_pre #(width s) h precomp_b) let fmul_precomp_inv_zeros #s precomp_b h = let r_b = gsub precomp_b 0ul (nlimb s) in let r_b5 = gsub precomp_b (nlimb s) (nlimb s) in as_seq_gsub h precomp_b 0ul (nlimb s); as_seq_gsub h precomp_b (nlimb s) (nlimb s); Hacl.Spec.Poly1305.Field32xN.Lemmas.precomp_r5_zeros (width s); LSeq.eq_intro (feval h r_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h r_b5) (LSeq.create (width s) 0); assert (F32xN.as_tup5 #(width s) h r_b5 == F32xN.precomp_r5 (F32xN.as_tup5 h r_b)) val precomp_inv_zeros: #s:field_spec -> precomp_b:lbuffer (limb s) (precomplen s) -> h:mem -> Lemma (requires as_seq h precomp_b == Lib.Sequence.create (v (precomplen s)) (limb_zero s)) (ensures F32xN.load_precompute_r_post #(width s) h precomp_b) #push-options "--z3rlimit 150" let precomp_inv_zeros #s precomp_b h = let r_b = gsub precomp_b 0ul (nlimb s) in let rn_b = gsub precomp_b (2ul ! nlimb s) (nlimb s) in let rn_b5 = gsub precomp_b (3ul ! nlimb s) (nlimb s) in as_seq_gsub h precomp_b 0ul (nlimb s); as_seq_gsub h precomp_b (2ul ! nlimb s) (nlimb s); as_seq_gsub h precomp_b (3ul ! nlimb s) (nlimb s); fmul_precomp_inv_zeros #s precomp_b h; Hacl.Spec.Poly1305.Field32xN.Lemmas.precomp_r5_zeros (width s); LSeq.eq_intro (feval h r_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h rn_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h rn_b5) (LSeq.create (width s) 0); assert (F32xN.as_tup5 #(width s) h rn_b5 == F32xN.precomp_r5 (F32xN.as_tup5 h rn_b)); assert (feval h rn_b == Vec.compute_rw (feval h r_b).[0]) #pop-options let ctx_inv_zeros #s ctx h = // ctx = [acc_b; r_b; r_b5; rn_b; rn_b5] let acc_b = gsub ctx 0ul (nlimb s) in as_seq_gsub h ctx 0ul (nlimb s); LSeq.eq_intro (feval h acc_b) (LSeq.create (width s) 0); assert (felem_fits h acc_b (2, 2, 2, 2, 2)); let precomp_b = gsub ctx (nlimb s) (precomplen s) in LSeq.eq_intro (as_seq h precomp_b) (Lib.Sequence.create (v (precomplen s)) (limb_zero s)); precomp_inv_zeros #s precomp_b h #reset-options "--z3rlimit 50 --max_fuel 0 --max_ifuel 0 --using_facts_from '* -FStar.Seq' --record_options" inline_for_extraction noextract val poly1305_encode_block: #s:field_spec -> f:felem s -> b:lbuffer uint8 16ul -> Stack unit (requires fun h -> live h b /\ live h f /\ disjoint b f) (ensures fun h0 _ h1 -> modifies (loc f) h0 h1 /\ felem_fits h1 f (1, 1, 1, 1, 1) /\ (feval h1 f).[0] == S.encode 16 (as_seq h0 b)) let poly1305_encode_block #s f b = load_felem_le f b; set_bit128 f inline_for_extraction noextract val poly1305_encode_blocks: #s:field_spec -> f:felem s -> b:lbuffer uint8 (blocklen s) -> Stack unit (requires fun h -> live h b /\ live h f /\ disjoint b f) (ensures fun h0 _ h1 -> modifies (loc f) h0 h1 /\ felem_fits h1 f (1, 1, 1, 1, 1) /\ feval h1 f == Vec.load_blocks #(width s) (as_seq h0 b)) let poly1305_encode_blocks #s f b = load_felems_le f b; set_bit128 f inline_for_extraction noextract val poly1305_encode_last: #s:field_spec -> f:felem s -> len:size_t{v len < 16} -> b:lbuffer uint8 len -> Stack unit (requires fun h -> live h b /\ live h f /\ disjoint b f) (ensures fun h0 _ h1 -> modifies (loc f) h0 h1 /\ felem_fits h1 f (1, 1, 1, 1, 1) /\ (feval h1 f).[0] == S.encode (v len) (as_seq h0 b)) let poly1305_encode_last #s f len b = push_frame(); let tmp = create 16ul (u8 0) in update_sub tmp 0ul len b; let h0 = ST.get () in Hacl.Impl.Poly1305.Lemmas.nat_from_bytes_le_eq_lemma (v len) (as_seq h0 b); assert (BSeq.nat_from_bytes_le (as_seq h0 b) == BSeq.nat_from_bytes_le (as_seq h0 tmp)); assert (BSeq.nat_from_bytes_le (as_seq h0 b) < pow2 (v len * 8)); load_felem_le f tmp; let h1 = ST.get () in lemma_feval_is_fas_nat h1 f; set_bit f (len *! 8ul); pop_frame() inline_for_extraction noextract val poly1305_encode_r: #s:field_spec -> p:precomp_r s -> b:lbuffer uint8 16ul -> Stack unit (requires fun h -> live h b /\ live h p /\ disjoint b p) (ensures fun h0 _ h1 -> modifies (loc p) h0 h1 /\ F32xN.load_precompute_r_post #(width s) h1 p /\ (feval h1 (gsub p 0ul 5ul)).[0] == S.poly1305_encode_r (as_seq h0 b)) let poly1305_encode_r #s p b = let lo = uint_from_bytes_le (sub b 0ul 8ul) in let hi = uint_from_bytes_le (sub b 8ul 8ul) in let mask0 = u64 0x0ffffffc0fffffff in let mask1 = u64 0x0ffffffc0ffffffc in let lo = lo &. mask0 in let hi = hi &. mask1 in load_precompute_r p lo hi [@ Meta.Attribute.specialize ] let poly1305_init #s ctx key = let acc = get_acc ctx in let pre = get_precomp_r ctx in let kr = sub key 0ul 16ul in set_zero acc; poly1305_encode_r #s pre kr inline_for_extraction noextract val update1: #s:field_spec -> p:precomp_r s -> b:lbuffer uint8 16ul -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h b /\ live h acc /\ disjoint p acc /\ disjoint b acc /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == S.poly1305_update1 (feval h0 (gsub p 0ul 5ul)).[0] 16 (as_seq h0 b) (feval h0 acc).[0]) let update1 #s pre b acc = push_frame (); let e = create (nlimb s) (limb_zero s) in poly1305_encode_block e b; fadd_mul_r acc e pre; pop_frame () let poly1305_update1 #s ctx text = let pre = get_precomp_r ctx in let acc = get_acc ctx in update1 pre text acc inline_for_extraction noextract val poly1305_update_last: #s:field_spec -> p:precomp_r s -> len:size_t{v len < 16} -> b:lbuffer uint8 len -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h b /\ live h acc /\ disjoint p acc /\ disjoint b acc /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == S.poly1305_update1 (feval h0 (gsub p 0ul 5ul)).[0] (v len) (as_seq h0 b) (feval h0 acc).[0]) #push-options "--z3rlimit 200" let poly1305_update_last #s pre len b acc = push_frame (); let e = create (nlimb s) (limb_zero s) in poly1305_encode_last e len b; fadd_mul_r acc e pre; pop_frame () #pop-options inline_for_extraction noextract val poly1305_update_nblocks: #s:field_spec -> p:precomp_r s -> b:lbuffer uint8 (blocklen s) -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h b /\ live h acc /\ disjoint acc p /\ disjoint acc b /\ felem_fits h acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (3, 3, 3, 3, 3) /\ feval h1 acc == Vec.poly1305_update_nblocks #(width s) (feval h0 (gsub p 10ul 5ul)) (as_seq h0 b) (feval h0 acc))	{ "checked_file": "/", "dependencies": [ "Spec.Poly1305.fst.checked", "prims.fst.checked", "Meta.Attribute.fst.checked", "Lib.Sequence.fsti.checked", "Lib.Loops.fsti.checked", "Lib.LoopCombinators.fst.checked", "Lib.IntTypes.fsti.checked", "Lib.ByteSequence.fsti.checked", "Lib.ByteBuffer.fsti.checked", "Lib.Buffer.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.Lemmas.fst.checked", "Hacl.Spec.Poly1305.Equiv.fst.checked", "Hacl.Impl.Poly1305.Lemmas.fst.checked", "Hacl.Impl.Poly1305.Fields.fst.checked", "Hacl.Impl.Poly1305.Field32xN.fst.checked", "Hacl.Impl.Poly1305.Bignum128.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.Math.Lemmas.fst.checked", "FStar.HyperStack.ST.fsti.checked", "FStar.HyperStack.All.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": true, "source_file": "Hacl.Impl.Poly1305.fst" }	[ { "abbrev": true, "full_module": "Hacl.Impl.Poly1305.Field32xN", "short_module": "F32xN" }, { "abbrev": true, "full_module": "Hacl.Spec.Poly1305.Equiv", "short_module": "Equiv" }, { "abbrev": true, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": "Vec" }, { "abbrev": true, "full_module": "Spec.Poly1305", "short_module": "S" }, { "abbrev": true, "full_module": "Lib.Sequence", "short_module": "LSeq" }, { "abbrev": true, "full_module": "Lib.ByteSequence", "short_module": "BSeq" }, { "abbrev": true, "full_module": "FStar.HyperStack.ST", "short_module": "ST" }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Bignum128", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Fields", "short_module": null }, { "abbrev": false, "full_module": "Lib.ByteBuffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.All", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": true, "full_module": "Spec.Poly1305", "short_module": "S" }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Fields", "short_module": null }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.All", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	p: Hacl.Impl.Poly1305.Fields.precomp_r s -> b: Lib.Buffer.lbuffer Lib.IntTypes.uint8 (Hacl.Impl.Poly1305.Fields.blocklen s) -> acc: Hacl.Impl.Poly1305.Fields.felem s -> FStar.HyperStack.ST.Stack Prims.unit	FStar.HyperStack.ST.Stack	[]	[]	[ "Hacl.Impl.Poly1305.Fields.field_spec", "Hacl.Impl.Poly1305.Fields.precomp_r", "Lib.Buffer.lbuffer", "Lib.IntTypes.uint8", "Hacl.Impl.Poly1305.Fields.blocklen", "Hacl.Impl.Poly1305.Fields.felem", "FStar.HyperStack.ST.pop_frame", "Prims.unit", "Hacl.Impl.Poly1305.Fields.fadd", "Hacl.Impl.Poly1305.Fields.fmul_rn", "Hacl.Impl.Poly1305.poly1305_encode_blocks", "Lib.Buffer.lbuffer_t", "Lib.Buffer.MUT", "Hacl.Spec.Poly1305.Field32xN.uint64xN", "FStar.UInt32.uint_to_t", "FStar.UInt32.t", "Lib.Buffer.create", "Hacl.Impl.Poly1305.Fields.limb", "Hacl.Impl.Poly1305.Fields.nlimb", "Hacl.Impl.Poly1305.Fields.limb_zero", "FStar.HyperStack.ST.push_frame" ]	[]	false	true	false	false	false	let poly1305_update_nblocks #s pre b acc =	push_frame (); let e = create (nlimb s) (limb_zero s) in poly1305_encode_blocks e b; fmul_rn acc acc pre; fadd acc acc e; pop_frame ()	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Vcipherlast	val va_code_Vcipherlast : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_code	val va_code_Vcipherlast : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_code	let va_code_Vcipherlast dst src1 src2 = (Ins (S.Vcipherlast dst src1 src2))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 37, "end_line": 1119, "start_col": 0, "start_line": 1118 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma1 (va_code_SHA256_Sigma1 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsbox [@ "opaque_to_smt"] let va_code_Vsbox dst src = (Ins (S.Vsbox dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vsbox dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsbox va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vsbox) (va_code_Vsbox dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsbox dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsbox dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsbox dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsbox (va_code_Vsbox dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- RotWord [@ "opaque_to_smt"] let va_code_RotWord dst src1 src2 = (Ins (S.RotWord dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_RotWord dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_RotWord va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_RotWord) (va_code_RotWord dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.RotWord dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.RotWord dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_RotWord dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_RotWord (va_code_RotWord dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipher [@ "opaque_to_smt"] let va_code_Vcipher dst src1 src2 = (Ins (S.Vcipher dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcipher dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcipher va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcipher) (va_code_Vcipher dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcipher dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcipher dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcipher dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcipher (va_code_Vcipher dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipherlast	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Vcipherlast", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Vcipherlast dst src1 src2 =	(Ins (S.Vcipherlast dst src1 src2))	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Load128_byte16_buffer	val va_wpProof_Load128_byte16_buffer : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Load128_byte16_buffer h dst base t b index va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load128_byte16_buffer h dst base t) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Load128_byte16_buffer : h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Load128_byte16_buffer h dst base t b index va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load128_byte16_buffer h dst base t) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 799, "start_col": 0, "start_line": 792 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> b: Vale.PPC64LE.Memory.buffer128 -> index: Prims.int -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Memory.buffer128", "Prims.int", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Load128_byte16_buffer", "Vale.PPC64LE.InsVector.va_code_Load128_byte16_buffer" ]	[]	false	false	false	false	false	let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k =	let va_sM, va_f0 = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Vcipher	val va_code_Vcipher : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_code	val va_code_Vcipher : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_code	let va_code_Vcipher dst src1 src2 = (Ins (S.Vcipher dst src1 src2))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 33, "end_line": 1090, "start_col": 0, "start_line": 1089 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma1 (va_code_SHA256_Sigma1 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsbox [@ "opaque_to_smt"] let va_code_Vsbox dst src = (Ins (S.Vsbox dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vsbox dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsbox va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vsbox) (va_code_Vsbox dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsbox dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsbox dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsbox dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsbox (va_code_Vsbox dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- RotWord [@ "opaque_to_smt"] let va_code_RotWord dst src1 src2 = (Ins (S.RotWord dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_RotWord dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_RotWord va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_RotWord) (va_code_RotWord dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.RotWord dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.RotWord dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_RotWord dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_RotWord (va_code_RotWord dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipher	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Vcipher", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Vcipher dst src1 src2 =	(Ins (S.Vcipher dst src1 src2))	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_Vcipher	val va_codegen_success_Vcipher : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_pbool	val va_codegen_success_Vcipher : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_pbool	let va_codegen_success_Vcipher dst src1 src2 = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 1094, "start_col": 0, "start_line": 1093 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma1 (va_code_SHA256_Sigma1 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsbox [@ "opaque_to_smt"] let va_code_Vsbox dst src = (Ins (S.Vsbox dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vsbox dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsbox va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vsbox) (va_code_Vsbox dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsbox dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsbox dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsbox dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsbox (va_code_Vsbox dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- RotWord [@ "opaque_to_smt"] let va_code_RotWord dst src1 src2 = (Ins (S.RotWord dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_RotWord dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_RotWord va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_RotWord) (va_code_RotWord dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.RotWord dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.RotWord dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_RotWord dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_RotWord (va_code_RotWord dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipher [@ "opaque_to_smt"] let va_code_Vcipher dst src1 src2 = (Ins (S.Vcipher dst src1 src2))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Vcipher dst src1 src2 =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Store128_buffer	val va_lemma_Store128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Store128_buffer h src base offset t) va_s0 /\ va_is_dst_heaplet h va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_is_src_reg_opr base va_s0 /\ va_is_src_reg_opr offset va_s0 /\ va_get_ok va_s0 /\ Vale.PPC64LE.Decls.valid_dst_addr #Vale.PPC64LE.Memory.vuint128 (va_eval_heaplet va_s0 h) b index /\ Vale.PPC64LE.Memory.valid_layout_buffer #Vale.PPC64LE.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.PPC64LE.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr va_s0 base + va_eval_reg_opr va_s0 offset == Vale.PPC64LE.Memory.buffer_addr #Vale.PPC64LE.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_heaplet va_sM h == buffer128_write b index (va_eval_vec_opr va_s0 src) (va_eval_heaplet va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))))	val va_lemma_Store128_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Store128_buffer h src base offset t) va_s0 /\ va_is_dst_heaplet h va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_is_src_reg_opr base va_s0 /\ va_is_src_reg_opr offset va_s0 /\ va_get_ok va_s0 /\ Vale.PPC64LE.Decls.valid_dst_addr #Vale.PPC64LE.Memory.vuint128 (va_eval_heaplet va_s0 h) b index /\ Vale.PPC64LE.Memory.valid_layout_buffer #Vale.PPC64LE.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.PPC64LE.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr va_s0 base + va_eval_reg_opr va_s0 offset == Vale.PPC64LE.Memory.buffer_addr #Vale.PPC64LE.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_heaplet va_sM h == buffer128_write b index (va_eval_vec_opr va_s0 src) (va_eval_heaplet va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))))	let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 615, "start_col": 0, "start_line": 608 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> h: Vale.PPC64LE.Decls.va_operand_heaplet -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> b: Vale.PPC64LE.Memory.buffer128 -> index: Prims.int -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Memory.buffer128", "Prims.int", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "Prims.unit", "Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full", "Vale.PPC64LE.Decls.va_eval_vec_opr", "Vale.PPC64LE.Decls.from_heap_impl", "Vale.PPC64LE.Machine_s.__proj__Mkstate__item__ms_heap", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Store128", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Store128_buffer" ]	[]	false	false	false	false	false	let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index =	va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Vncipher	val va_code_Vncipher : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_code	val va_code_Vncipher : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_code	let va_code_Vncipher dst src1 src2 = (Ins (S.Vncipher dst src1 src2))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 34, "end_line": 1149, "start_col": 0, "start_line": 1148 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma1 (va_code_SHA256_Sigma1 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsbox [@ "opaque_to_smt"] let va_code_Vsbox dst src = (Ins (S.Vsbox dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vsbox dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsbox va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vsbox) (va_code_Vsbox dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsbox dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsbox dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsbox dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsbox (va_code_Vsbox dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- RotWord [@ "opaque_to_smt"] let va_code_RotWord dst src1 src2 = (Ins (S.RotWord dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_RotWord dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_RotWord va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_RotWord) (va_code_RotWord dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.RotWord dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.RotWord dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_RotWord dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_RotWord (va_code_RotWord dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipher [@ "opaque_to_smt"] let va_code_Vcipher dst src1 src2 = (Ins (S.Vcipher dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcipher dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcipher va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcipher) (va_code_Vcipher dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcipher dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcipher dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcipher dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcipher (va_code_Vcipher dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipherlast [@ "opaque_to_smt"] let va_code_Vcipherlast dst src1 src2 = (Ins (S.Vcipherlast dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcipherlast dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcipherlast va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcipherlast) (va_code_Vcipherlast dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcipherlast dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcipherlast dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcipherlast dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcipherlast (va_code_Vcipherlast dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vncipher	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Vncipher", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Vncipher dst src1 src2 =	(Ins (S.Vncipher dst src1 src2))	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_Vncipher	val va_codegen_success_Vncipher : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_pbool	val va_codegen_success_Vncipher : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_pbool	let va_codegen_success_Vncipher dst src1 src2 = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 1153, "start_col": 0, "start_line": 1152 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma1 (va_code_SHA256_Sigma1 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsbox [@ "opaque_to_smt"] let va_code_Vsbox dst src = (Ins (S.Vsbox dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vsbox dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsbox va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vsbox) (va_code_Vsbox dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsbox dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsbox dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsbox dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsbox (va_code_Vsbox dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- RotWord [@ "opaque_to_smt"] let va_code_RotWord dst src1 src2 = (Ins (S.RotWord dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_RotWord dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_RotWord va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_RotWord) (va_code_RotWord dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.RotWord dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.RotWord dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_RotWord dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_RotWord (va_code_RotWord dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipher [@ "opaque_to_smt"] let va_code_Vcipher dst src1 src2 = (Ins (S.Vcipher dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcipher dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcipher va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcipher) (va_code_Vcipher dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcipher dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcipher dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcipher dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcipher (va_code_Vcipher dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipherlast [@ "opaque_to_smt"] let va_code_Vcipherlast dst src1 src2 = (Ins (S.Vcipherlast dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcipherlast dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcipherlast va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcipherlast) (va_code_Vcipherlast dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcipherlast dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcipherlast dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcipherlast dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcipherlast (va_code_Vcipherlast dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vncipher [@ "opaque_to_smt"] let va_code_Vncipher dst src1 src2 = (Ins (S.Vncipher dst src1 src2))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Vncipher dst src1 src2 =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_SHA256_sigma0	val va_wpProof_SHA256_sigma0 : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> t:counter -> block:block_w -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_SHA256_sigma0 dst src t block va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_SHA256_sigma0 dst src) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_SHA256_sigma0 : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> t:counter -> block:block_w -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_SHA256_sigma0 dst src t block va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_SHA256_sigma0 dst src) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 932, "start_col": 0, "start_line": 925 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> t: Vale.SHA.PPC64LE.SHA_helpers.counter -> block: Vale.SHA.PPC64LE.SHA_helpers.block_w -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.SHA.PPC64LE.SHA_helpers.counter", "Vale.SHA.PPC64LE.SHA_helpers.block_w", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_SHA256_sigma0", "Vale.PPC64LE.InsVector.va_code_SHA256_sigma0" ]	[]	false	false	false	false	false	let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k =	let va_sM, va_f0 = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Vncipherlast	val va_code_Vncipherlast : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_code	val va_code_Vncipherlast : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_code	let va_code_Vncipherlast dst src1 src2 = (Ins (S.Vncipherlast dst src1 src2))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 38, "end_line": 1178, "start_col": 0, "start_line": 1177 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma1 (va_code_SHA256_Sigma1 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsbox [@ "opaque_to_smt"] let va_code_Vsbox dst src = (Ins (S.Vsbox dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vsbox dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsbox va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vsbox) (va_code_Vsbox dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsbox dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsbox dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsbox dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsbox (va_code_Vsbox dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- RotWord [@ "opaque_to_smt"] let va_code_RotWord dst src1 src2 = (Ins (S.RotWord dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_RotWord dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_RotWord va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_RotWord) (va_code_RotWord dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.RotWord dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.RotWord dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_RotWord dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_RotWord (va_code_RotWord dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipher [@ "opaque_to_smt"] let va_code_Vcipher dst src1 src2 = (Ins (S.Vcipher dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcipher dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcipher va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcipher) (va_code_Vcipher dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcipher dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcipher dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcipher dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcipher (va_code_Vcipher dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipherlast [@ "opaque_to_smt"] let va_code_Vcipherlast dst src1 src2 = (Ins (S.Vcipherlast dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcipherlast dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcipherlast va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcipherlast) (va_code_Vcipherlast dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcipherlast dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcipherlast dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcipherlast dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcipherlast (va_code_Vcipherlast dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vncipher [@ "opaque_to_smt"] let va_code_Vncipher dst src1 src2 = (Ins (S.Vncipher dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vncipher dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vncipher va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vncipher) (va_code_Vncipher dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vncipher dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vncipher dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vncipher dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vncipher (va_code_Vncipher dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vncipherlast	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Vncipherlast", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Vncipherlast dst src1 src2 =	(Ins (S.Vncipherlast dst src1 src2))	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_Vpmsumd	val va_codegen_success_Vpmsumd : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_pbool	val va_codegen_success_Vpmsumd : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_pbool	let va_codegen_success_Vpmsumd dst src1 src2 = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 1212, "start_col": 0, "start_line": 1211 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma1 (va_code_SHA256_Sigma1 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsbox [@ "opaque_to_smt"] let va_code_Vsbox dst src = (Ins (S.Vsbox dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vsbox dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsbox va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vsbox) (va_code_Vsbox dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsbox dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsbox dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsbox dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsbox (va_code_Vsbox dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- RotWord [@ "opaque_to_smt"] let va_code_RotWord dst src1 src2 = (Ins (S.RotWord dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_RotWord dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_RotWord va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_RotWord) (va_code_RotWord dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.RotWord dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.RotWord dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_RotWord dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_RotWord (va_code_RotWord dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipher [@ "opaque_to_smt"] let va_code_Vcipher dst src1 src2 = (Ins (S.Vcipher dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcipher dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcipher va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcipher) (va_code_Vcipher dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcipher dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcipher dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcipher dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcipher (va_code_Vcipher dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipherlast [@ "opaque_to_smt"] let va_code_Vcipherlast dst src1 src2 = (Ins (S.Vcipherlast dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcipherlast dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcipherlast va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcipherlast) (va_code_Vcipherlast dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcipherlast dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcipherlast dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcipherlast dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcipherlast (va_code_Vcipherlast dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vncipher [@ "opaque_to_smt"] let va_code_Vncipher dst src1 src2 = (Ins (S.Vncipher dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vncipher dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vncipher va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vncipher) (va_code_Vncipher dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vncipher dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vncipher dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vncipher dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vncipher (va_code_Vncipher dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vncipherlast [@ "opaque_to_smt"] let va_code_Vncipherlast dst src1 src2 = (Ins (S.Vncipherlast dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vncipherlast dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vncipherlast va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vncipherlast) (va_code_Vncipherlast dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vncipherlast dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vncipherlast dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vncipherlast dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vncipherlast (va_code_Vncipherlast dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vpmsumd [@ "opaque_to_smt"] let va_code_Vpmsumd dst src1 src2 = (Ins (S.Vpmsumd dst src1 src2))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Vpmsumd dst src1 src2 =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_SHA256_Sigma0	val va_wpProof_SHA256_Sigma0 : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> t:counter -> block:block_w -> hash_orig:hash256 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_SHA256_Sigma0 dst src) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_SHA256_Sigma0 : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> t:counter -> block:block_w -> hash_orig:hash256 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_SHA256_Sigma0 dst src) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 994, "start_col": 0, "start_line": 987 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> t: Vale.SHA.PPC64LE.SHA_helpers.counter -> block: Vale.SHA.PPC64LE.SHA_helpers.block_w -> hash_orig: Vale.SHA.PPC64LE.SHA_helpers.hash256 -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.SHA.PPC64LE.SHA_helpers.counter", "Vale.SHA.PPC64LE.SHA_helpers.block_w", "Vale.SHA.PPC64LE.SHA_helpers.hash256", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_SHA256_Sigma0", "Vale.PPC64LE.InsVector.va_code_SHA256_Sigma0" ]	[]	false	false	false	false	false	let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k =	let va_sM, va_f0 = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Hacl.Bignum64.fst	Hacl.Bignum64.ke		val ke : len: Hacl.Bignum.meta_len Hacl.Bignum64.t_limbs -> Hacl.Bignum.Exponentiation.exp Hacl.Bignum64.t_limbs	let ke (len:BN.meta_len t_limbs) = BE.mk_runtime_exp #t_limbs len	{ "file_name": "code/bignum/Hacl.Bignum64.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 32, "end_line": 21, "start_col": 0, "start_line": 20 }	module Hacl.Bignum64 open FStar.Mul module BN = Hacl.Bignum module BE = Hacl.Bignum.Exponentiation module BR = Hacl.Bignum.ModReduction module AM = Hacl.Bignum.AlmostMontgomery module MA = Hacl.Bignum.MontArithmetic module BI = Hacl.Bignum.ModInv module BM = Hacl.Bignum.Montgomery #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" inline_for_extraction noextract let kam (len:BN.meta_len t_limbs) = AM.mk_runtime_almost_mont #t_limbs len	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "Hacl.Bignum.Montgomery.fsti.checked", "Hacl.Bignum.MontArithmetic.fsti.checked", "Hacl.Bignum.ModReduction.fst.checked", "Hacl.Bignum.ModInv.fst.checked", "Hacl.Bignum.Exponentiation.fsti.checked", "Hacl.Bignum.Convert.fst.checked", "Hacl.Bignum.AlmostMontgomery.fsti.checked", "Hacl.Bignum.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Hacl.Bignum64.fst" }	[ { "abbrev": true, "full_module": "Hacl.Bignum.Montgomery", "short_module": "BM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModInv", "short_module": "BI" }, { "abbrev": true, "full_module": "Hacl.Bignum.MontArithmetic", "short_module": "MA" }, { "abbrev": true, "full_module": "Hacl.Bignum.AlmostMontgomery", "short_module": "AM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModReduction", "short_module": "BR" }, { "abbrev": true, "full_module": "Hacl.Bignum.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Hacl.Bignum", "short_module": "BN" }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Hacl.Bignum.MontArithmetic", "short_module": "MA" }, { "abbrev": true, "full_module": "Hacl.Bignum.SafeAPI", "short_module": "BS" }, { "abbrev": true, "full_module": "Hacl.Bignum", "short_module": "BN" }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	len: Hacl.Bignum.meta_len Hacl.Bignum64.t_limbs -> Hacl.Bignum.Exponentiation.exp Hacl.Bignum64.t_limbs	Prims.Tot	[ "total" ]	[]	[ "Hacl.Bignum.meta_len", "Hacl.Bignum64.t_limbs", "Hacl.Bignum.Exponentiation.mk_runtime_exp", "Hacl.Bignum.Exponentiation.exp" ]	[]	false	false	false	true	false	let ke (len: BN.meta_len t_limbs) =	BE.mk_runtime_exp #t_limbs len	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Load128_word4_buffer	val va_lemma_Load128_word4_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Load128_word4_buffer h dst base t) va_s0 /\ va_is_src_heaplet h va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_reg_opr base va_s0 /\ va_get_ok va_s0 /\ Vale.PPC64LE.Decls.valid_src_addr #Vale.PPC64LE.Memory.vuint128 (va_eval_heaplet va_s0 h) b index /\ Vale.PPC64LE.Memory.valid_layout_buffer #Vale.PPC64LE.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\ Vale.PPC64LE.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr va_s0 base == Vale.PPC64LE.Memory.buffer_addr #Vale.PPC64LE.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (let buf = Vale.PPC64LE.Decls.buffer128_read b index (va_eval_heaplet va_sM h) in l_and (l_and (l_and (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_sM dst) == Vale.Def.Words_s.__proj__Mkfour__item__hi3 buf) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_sM dst) == Vale.Def.Words_s.__proj__Mkfour__item__hi2 buf)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_sM dst) == Vale.Def.Words_s.__proj__Mkfour__item__lo1 buf)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_sM dst) == Vale.Def.Words_s.__proj__Mkfour__item__lo0 buf)) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_Load128_word4_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Load128_word4_buffer h dst base t) va_s0 /\ va_is_src_heaplet h va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_reg_opr base va_s0 /\ va_get_ok va_s0 /\ Vale.PPC64LE.Decls.valid_src_addr #Vale.PPC64LE.Memory.vuint128 (va_eval_heaplet va_s0 h) b index /\ Vale.PPC64LE.Memory.valid_layout_buffer #Vale.PPC64LE.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\ Vale.PPC64LE.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr va_s0 base == Vale.PPC64LE.Memory.buffer_addr #Vale.PPC64LE.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (let buf = Vale.PPC64LE.Decls.buffer128_read b index (va_eval_heaplet va_sM h) in l_and (l_and (l_and (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_sM dst) == Vale.Def.Words_s.__proj__Mkfour__item__hi3 buf) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_sM dst) == Vale.Def.Words_s.__proj__Mkfour__item__hi2 buf)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_sM dst) == Vale.Def.Words_s.__proj__Mkfour__item__lo1 buf)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_sM dst) == Vale.Def.Words_s.__proj__Mkfour__item__lo0 buf)) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 648, "start_col": 0, "start_line": 641 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> h: Vale.PPC64LE.Decls.va_operand_heaplet -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> b: Vale.PPC64LE.Memory.buffer128 -> index: Prims.int -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Memory.buffer128", "Prims.int", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "Prims.unit", "Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full", "Vale.PPC64LE.Decls.from_heap_impl", "Vale.PPC64LE.Machine_s.__proj__Mkstate__item__ms_heap", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Load128Word4", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Load128_word4_buffer" ]	[]	false	false	false	false	false	let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index =	va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_code_Vpmsumd	val va_code_Vpmsumd : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_code	val va_code_Vpmsumd : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_code	let va_code_Vpmsumd dst src1 src2 = (Ins (S.Vpmsumd dst src1 src2))	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 33, "end_line": 1208, "start_col": 0, "start_line": 1207 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma1 (va_code_SHA256_Sigma1 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsbox [@ "opaque_to_smt"] let va_code_Vsbox dst src = (Ins (S.Vsbox dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vsbox dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsbox va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vsbox) (va_code_Vsbox dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsbox dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsbox dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsbox dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsbox (va_code_Vsbox dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- RotWord [@ "opaque_to_smt"] let va_code_RotWord dst src1 src2 = (Ins (S.RotWord dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_RotWord dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_RotWord va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_RotWord) (va_code_RotWord dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.RotWord dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.RotWord dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_RotWord dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_RotWord (va_code_RotWord dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipher [@ "opaque_to_smt"] let va_code_Vcipher dst src1 src2 = (Ins (S.Vcipher dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcipher dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcipher va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcipher) (va_code_Vcipher dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcipher dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcipher dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcipher dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcipher (va_code_Vcipher dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipherlast [@ "opaque_to_smt"] let va_code_Vcipherlast dst src1 src2 = (Ins (S.Vcipherlast dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcipherlast dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcipherlast va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcipherlast) (va_code_Vcipherlast dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcipherlast dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcipherlast dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcipherlast dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcipherlast (va_code_Vcipherlast dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vncipher [@ "opaque_to_smt"] let va_code_Vncipher dst src1 src2 = (Ins (S.Vncipher dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vncipher dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vncipher va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vncipher) (va_code_Vncipher dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vncipher dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vncipher dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vncipher dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vncipher (va_code_Vncipher dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vncipherlast [@ "opaque_to_smt"] let va_code_Vncipherlast dst src1 src2 = (Ins (S.Vncipherlast dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vncipherlast dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vncipherlast va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vncipherlast) (va_code_Vncipherlast dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vncipherlast dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vncipherlast dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vncipherlast dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vncipherlast (va_code_Vncipherlast dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vpmsumd	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_code	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Semantics_s.Vpmsumd", "Vale.PPC64LE.Decls.va_code" ]	[]	false	false	false	true	false	let va_code_Vpmsumd dst src1 src2 =	(Ins (S.Vpmsumd dst src1 src2))	false
Hacl.Bignum64.fst	Hacl.Bignum64.kam		val kam : len: Hacl.Bignum.meta_len Hacl.Bignum64.t_limbs -> Hacl.Bignum.AlmostMontgomery.almost_mont Hacl.Bignum64.t_limbs	let kam (len:BN.meta_len t_limbs) = AM.mk_runtime_almost_mont #t_limbs len	{ "file_name": "code/bignum/Hacl.Bignum64.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 40, "end_line": 17, "start_col": 0, "start_line": 16 }	module Hacl.Bignum64 open FStar.Mul module BN = Hacl.Bignum module BE = Hacl.Bignum.Exponentiation module BR = Hacl.Bignum.ModReduction module AM = Hacl.Bignum.AlmostMontgomery module MA = Hacl.Bignum.MontArithmetic module BI = Hacl.Bignum.ModInv module BM = Hacl.Bignum.Montgomery #set-options "--z3rlimit 50 --fuel 0 --ifuel 0"	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "Hacl.Bignum.Montgomery.fsti.checked", "Hacl.Bignum.MontArithmetic.fsti.checked", "Hacl.Bignum.ModReduction.fst.checked", "Hacl.Bignum.ModInv.fst.checked", "Hacl.Bignum.Exponentiation.fsti.checked", "Hacl.Bignum.Convert.fst.checked", "Hacl.Bignum.AlmostMontgomery.fsti.checked", "Hacl.Bignum.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Hacl.Bignum64.fst" }	[ { "abbrev": true, "full_module": "Hacl.Bignum.Montgomery", "short_module": "BM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModInv", "short_module": "BI" }, { "abbrev": true, "full_module": "Hacl.Bignum.MontArithmetic", "short_module": "MA" }, { "abbrev": true, "full_module": "Hacl.Bignum.AlmostMontgomery", "short_module": "AM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModReduction", "short_module": "BR" }, { "abbrev": true, "full_module": "Hacl.Bignum.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Hacl.Bignum", "short_module": "BN" }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Hacl.Bignum.MontArithmetic", "short_module": "MA" }, { "abbrev": true, "full_module": "Hacl.Bignum.SafeAPI", "short_module": "BS" }, { "abbrev": true, "full_module": "Hacl.Bignum", "short_module": "BN" }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	len: Hacl.Bignum.meta_len Hacl.Bignum64.t_limbs -> Hacl.Bignum.AlmostMontgomery.almost_mont Hacl.Bignum64.t_limbs	Prims.Tot	[ "total" ]	[]	[ "Hacl.Bignum.meta_len", "Hacl.Bignum64.t_limbs", "Hacl.Bignum.AlmostMontgomery.mk_runtime_almost_mont", "Hacl.Bignum.AlmostMontgomery.almost_mont" ]	[]	false	false	false	true	false	let kam (len: BN.meta_len t_limbs) =	AM.mk_runtime_almost_mont #t_limbs len	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Store128_word4_buffer_index	val va_lemma_Store128_word4_buffer_index : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Store128_word4_buffer_index h src base offset t) va_s0 /\ va_is_dst_heaplet h va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_is_src_reg_opr base va_s0 /\ va_is_src_reg_opr offset va_s0 /\ va_get_ok va_s0 /\ offset =!= 0 /\ Vale.PPC64LE.Decls.valid_dst_addr #Vale.PPC64LE.Memory.vuint128 (va_eval_heaplet va_s0 h) b index /\ Vale.PPC64LE.Memory.valid_layout_buffer #Vale.PPC64LE.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.PPC64LE.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr va_s0 base + va_eval_reg_opr va_s0 offset == Vale.PPC64LE.Memory.buffer_addr #Vale.PPC64LE.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_heaplet va_sM h == buffer128_write b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src))) (va_eval_heaplet va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))))	val va_lemma_Store128_word4_buffer_index : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Store128_word4_buffer_index h src base offset t) va_s0 /\ va_is_dst_heaplet h va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_is_src_reg_opr base va_s0 /\ va_is_src_reg_opr offset va_s0 /\ va_get_ok va_s0 /\ offset =!= 0 /\ Vale.PPC64LE.Decls.valid_dst_addr #Vale.PPC64LE.Memory.vuint128 (va_eval_heaplet va_s0 h) b index /\ Vale.PPC64LE.Memory.valid_layout_buffer #Vale.PPC64LE.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.PPC64LE.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr va_s0 base + va_eval_reg_opr va_s0 offset == Vale.PPC64LE.Memory.buffer_addr #Vale.PPC64LE.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_heaplet va_sM h == buffer128_write b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src))) (va_eval_heaplet va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))))	let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 755, "start_col": 0, "start_line": 743 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> h: Vale.PPC64LE.Decls.va_operand_heaplet -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> b: Vale.PPC64LE.Memory.buffer128 -> index: Prims.int -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Memory.buffer128", "Prims.int", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "Prims.unit", "Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full", "Vale.Def.Words_s.Mkfour", "Vale.Def.Types_s.nat32", "Vale.Def.Words_s.__proj__Mkfour__item__hi3", "Vale.PPC64LE.Decls.va_eval_vec_opr", "Vale.Def.Words_s.__proj__Mkfour__item__hi2", "Vale.Def.Words_s.__proj__Mkfour__item__lo1", "Vale.Def.Words_s.__proj__Mkfour__item__lo0", "Vale.PPC64LE.Decls.from_heap_impl", "Vale.PPC64LE.Machine_s.__proj__Mkstate__item__ms_heap", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Store128Word4Index", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Store128_word4_buffer_index" ]	[]	false	false	false	false	false	let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index =	va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_codegen_success_Vncipherlast	val va_codegen_success_Vncipherlast : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_pbool	val va_codegen_success_Vncipherlast : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Tot va_pbool	let va_codegen_success_Vncipherlast dst src1 src2 = (va_ttrue ())	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 15, "end_line": 1182, "start_col": 0, "start_line": 1181 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma1 (va_code_SHA256_Sigma1 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsbox [@ "opaque_to_smt"] let va_code_Vsbox dst src = (Ins (S.Vsbox dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vsbox dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsbox va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vsbox) (va_code_Vsbox dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsbox dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsbox dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsbox dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsbox (va_code_Vsbox dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- RotWord [@ "opaque_to_smt"] let va_code_RotWord dst src1 src2 = (Ins (S.RotWord dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_RotWord dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_RotWord va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_RotWord) (va_code_RotWord dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.RotWord dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.RotWord dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_RotWord dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_RotWord (va_code_RotWord dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipher [@ "opaque_to_smt"] let va_code_Vcipher dst src1 src2 = (Ins (S.Vcipher dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcipher dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcipher va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcipher) (va_code_Vcipher dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcipher dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcipher dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcipher dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcipher (va_code_Vcipher dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipherlast [@ "opaque_to_smt"] let va_code_Vcipherlast dst src1 src2 = (Ins (S.Vcipherlast dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcipherlast dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcipherlast va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcipherlast) (va_code_Vcipherlast dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcipherlast dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcipherlast dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcipherlast dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcipherlast (va_code_Vcipherlast dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vncipher [@ "opaque_to_smt"] let va_code_Vncipher dst src1 src2 = (Ins (S.Vncipher dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vncipher dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vncipher va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vncipher) (va_code_Vncipher dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vncipher dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vncipher dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vncipher dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vncipher (va_code_Vncipher dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vncipherlast [@ "opaque_to_smt"] let va_code_Vncipherlast dst src1 src2 = (Ins (S.Vncipherlast dst src1 src2))	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Vale.PPC64LE.Decls.va_pbool	Prims.Tot	[ "total" ]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_ttrue", "Vale.PPC64LE.Decls.va_pbool" ]	[]	false	false	false	true	false	let va_codegen_success_Vncipherlast dst src1 src2 =	(va_ttrue ())	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_SHA256_sigma1	val va_wpProof_SHA256_sigma1 : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> t:counter -> block:block_w -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_SHA256_sigma1 dst src t block va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_SHA256_sigma1 dst src) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_SHA256_sigma1 : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> t:counter -> block:block_w -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_SHA256_sigma1 dst src t block va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_SHA256_sigma1 dst src) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 963, "start_col": 0, "start_line": 956 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> t: Vale.SHA.PPC64LE.SHA_helpers.counter -> block: Vale.SHA.PPC64LE.SHA_helpers.block_w -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.SHA.PPC64LE.SHA_helpers.counter", "Vale.SHA.PPC64LE.SHA_helpers.block_w", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_SHA256_sigma1", "Vale.PPC64LE.InsVector.va_code_SHA256_sigma1" ]	[]	false	false	false	false	false	let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k =	let va_sM, va_f0 = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Store128_byte16_buffer_index	val va_wpProof_Store128_byte16_buffer_index : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store128_byte16_buffer_index h src base offset t) ([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Store128_byte16_buffer_index : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store128_byte16_buffer_index h src base offset t) ([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 901, "start_col": 0, "start_line": 893 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> b: Vale.PPC64LE.Memory.buffer128 -> index: Prims.int -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Memory.buffer128", "Prims.int", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_Mod_mem", "Vale.PPC64LE.QuickCode.va_mod_heaplet", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_mem", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_heaplet", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Store128_byte16_buffer_index", "Vale.PPC64LE.InsVector.va_code_Store128_byte16_buffer_index" ]	[]	false	false	false	false	false	let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k =	let va_sM, va_f0 = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Store128_byte16_buffer	val va_wpProof_Store128_byte16_buffer : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Store128_byte16_buffer h src base t b index va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store128_byte16_buffer h src base t) ([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Store128_byte16_buffer : h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Store128_byte16_buffer h src base t b index va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store128_byte16_buffer h src base t) ([va_Mod_mem; va_mod_heaplet h]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 866, "start_col": 0, "start_line": 858 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.PPC64LE.Decls.va_operand_heaplet -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> b: Vale.PPC64LE.Memory.buffer128 -> index: Prims.int -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Memory.buffer128", "Prims.int", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_Mod_mem", "Vale.PPC64LE.QuickCode.va_mod_heaplet", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_mem", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_heaplet", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Store128_byte16_buffer", "Vale.PPC64LE.InsVector.va_code_Store128_byte16_buffer" ]	[]	false	false	false	false	false	let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k =	let va_sM, va_f0 = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Load128_byte16_buffer	val va_lemma_Load128_byte16_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Load128_byte16_buffer h dst base t) va_s0 /\ va_is_src_heaplet h va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_reg_opr base va_s0 /\ va_get_ok va_s0 /\ Vale.PPC64LE.Decls.valid_src_addr #Vale.PPC64LE.Memory.vuint128 (va_eval_heaplet va_s0 h) b index /\ Vale.PPC64LE.Memory.valid_layout_buffer #Vale.PPC64LE.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\ Vale.PPC64LE.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr va_s0 base == Vale.PPC64LE.Memory.buffer_addr #Vale.PPC64LE.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.PPC64LE.Decls.buffer128_read b index (va_eval_heaplet va_sM h)) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_Load128_byte16_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Load128_byte16_buffer h dst base t) va_s0 /\ va_is_src_heaplet h va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_reg_opr base va_s0 /\ va_get_ok va_s0 /\ Vale.PPC64LE.Decls.valid_src_addr #Vale.PPC64LE.Memory.vuint128 (va_eval_heaplet va_s0 h) b index /\ Vale.PPC64LE.Memory.valid_layout_buffer #Vale.PPC64LE.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\ Vale.PPC64LE.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr va_s0 base == Vale.PPC64LE.Memory.buffer_addr #Vale.PPC64LE.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.PPC64LE.Decls.buffer128_read b index (va_eval_heaplet va_sM h)) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 788, "start_col": 0, "start_line": 781 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> h: Vale.PPC64LE.Decls.va_operand_heaplet -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> b: Vale.PPC64LE.Memory.buffer128 -> index: Prims.int -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Memory.buffer128", "Prims.int", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "Prims.unit", "Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full", "Vale.PPC64LE.Decls.from_heap_impl", "Vale.PPC64LE.Machine_s.__proj__Mkstate__item__ms_heap", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Load128Byte16", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Load128_byte16_buffer" ]	[]	false	false	false	false	false	let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index =	va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_SHA256_Sigma1	val va_wpProof_SHA256_Sigma1 : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> t:counter -> block:block_w -> hash_orig:hash256 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_SHA256_Sigma1 dst src) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_SHA256_Sigma1 : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> t:counter -> block:block_w -> hash_orig:hash256 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_SHA256_Sigma1 dst src) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma1 (va_code_SHA256_Sigma1 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 1025, "start_col": 0, "start_line": 1018 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> t: Vale.SHA.PPC64LE.SHA_helpers.counter -> block: Vale.SHA.PPC64LE.SHA_helpers.block_w -> hash_orig: Vale.SHA.PPC64LE.SHA_helpers.hash256 -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.SHA.PPC64LE.SHA_helpers.counter", "Vale.SHA.PPC64LE.SHA_helpers.block_w", "Vale.SHA.PPC64LE.SHA_helpers.hash256", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_SHA256_Sigma1", "Vale.PPC64LE.InsVector.va_code_SHA256_Sigma1" ]	[]	false	false	false	false	false	let va_wpProof_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k =	let va_sM, va_f0 = va_lemma_SHA256_Sigma1 (va_code_SHA256_Sigma1 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Store128_word4_buffer	val va_lemma_Store128_word4_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Store128_word4_buffer h src base t) va_s0 /\ va_is_dst_heaplet h va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_is_src_reg_opr base va_s0 /\ va_get_ok va_s0 /\ Vale.PPC64LE.Decls.valid_dst_addr #Vale.PPC64LE.Memory.vuint128 (va_eval_heaplet va_s0 h) b index /\ Vale.PPC64LE.Memory.valid_layout_buffer #Vale.PPC64LE.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.PPC64LE.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr va_s0 base == Vale.PPC64LE.Memory.buffer_addr #Vale.PPC64LE.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_heaplet va_sM h == buffer128_write b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src))) (va_eval_heaplet va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))))	val va_lemma_Store128_word4_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Store128_word4_buffer h src base t) va_s0 /\ va_is_dst_heaplet h va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_is_src_reg_opr base va_s0 /\ va_get_ok va_s0 /\ Vale.PPC64LE.Decls.valid_dst_addr #Vale.PPC64LE.Memory.vuint128 (va_eval_heaplet va_s0 h) b index /\ Vale.PPC64LE.Memory.valid_layout_buffer #Vale.PPC64LE.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.PPC64LE.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr va_s0 base == Vale.PPC64LE.Memory.buffer_addr #Vale.PPC64LE.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_heaplet va_sM h == buffer128_write b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src))) (va_eval_heaplet va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))))	let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 717, "start_col": 0, "start_line": 706 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> h: Vale.PPC64LE.Decls.va_operand_heaplet -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> b: Vale.PPC64LE.Memory.buffer128 -> index: Prims.int -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Memory.buffer128", "Prims.int", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "Prims.unit", "Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full", "Vale.Def.Words_s.Mkfour", "Vale.Def.Types_s.nat32", "Vale.Def.Words_s.__proj__Mkfour__item__hi3", "Vale.PPC64LE.Decls.va_eval_vec_opr", "Vale.Def.Words_s.__proj__Mkfour__item__hi2", "Vale.Def.Words_s.__proj__Mkfour__item__lo1", "Vale.Def.Words_s.__proj__Mkfour__item__lo0", "Vale.PPC64LE.Decls.from_heap_impl", "Vale.PPC64LE.Machine_s.__proj__Mkstate__item__ms_heap", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Store128Word4", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Store128_word4_buffer" ]	[]	false	false	false	false	false	let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index =	va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM)	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.mods_t		val mods_t : Type0	let mods_t = list mod_t	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 30, "end_line": 21, "start_col": 7, "start_line": 21 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	Type0	Prims.Tot	[ "total" ]	[]	[ "Prims.list", "Vale.X64.QuickCode.mod_t" ]	[]	false	false	false	true	true	let mods_t =	list mod_t	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.va_mods_t		val va_mods_t : Type0	let va_mods_t = mods_t	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 29, "end_line": 22, "start_col": 7, "start_line": 22 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	Type0	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.QuickCode.mods_t" ]	[]	false	false	false	true	true	let va_mods_t =	mods_t	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.va_Mod_ok		val va_Mod_ok : Vale.X64.QuickCode.mod_t	let va_Mod_ok = Mod_ok	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 41, "end_line": 25, "start_col": 19, "start_line": 25 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	Vale.X64.QuickCode.mod_t	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.QuickCode.Mod_ok" ]	[]	false	false	false	true	false	let va_Mod_ok =	Mod_ok	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Vsbox	val va_wpProof_Vsbox : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vsbox dst src va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vsbox dst src) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Vsbox : dst:va_operand_vec_opr -> src:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vsbox dst src va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vsbox dst src) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Vsbox dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsbox (va_code_Vsbox dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 1054, "start_col": 0, "start_line": 1048 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma1 (va_code_SHA256_Sigma1 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsbox [@ "opaque_to_smt"] let va_code_Vsbox dst src = (Ins (S.Vsbox dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vsbox dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsbox va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vsbox) (va_code_Vsbox dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsbox dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsbox dst src)) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Vsbox", "Vale.PPC64LE.InsVector.va_code_Vsbox" ]	[]	false	false	false	false	false	let va_wpProof_Vsbox dst src va_s0 va_k =	let va_sM, va_f0 = va_lemma_Vsbox (va_code_Vsbox dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.va_Mod_None		val va_Mod_None : Vale.X64.QuickCode.mod_t	let va_Mod_None = Mod_None	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 45, "end_line": 24, "start_col": 19, "start_line": 24 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	Vale.X64.QuickCode.mod_t	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.QuickCode.Mod_None" ]	[]	false	false	false	true	false	let va_Mod_None =	Mod_None	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Load128_word4_buffer_index	val va_lemma_Load128_word4_buffer_index : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 /\ va_is_src_heaplet h va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_reg_opr base va_s0 /\ va_is_src_reg_opr offset va_s0 /\ va_get_ok va_s0 /\ offset =!= 0 /\ Vale.PPC64LE.Decls.valid_src_addr #Vale.PPC64LE.Memory.vuint128 (va_eval_heaplet va_s0 h) b index /\ Vale.PPC64LE.Memory.valid_layout_buffer #Vale.PPC64LE.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\ Vale.PPC64LE.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr va_s0 base + va_eval_reg_opr va_s0 offset == Vale.PPC64LE.Memory.buffer_addr #Vale.PPC64LE.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (let buf = Vale.PPC64LE.Decls.buffer128_read b index (va_eval_heaplet va_sM h) in l_and (l_and (l_and (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_sM dst) == Vale.Def.Words_s.__proj__Mkfour__item__hi3 buf) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_sM dst) == Vale.Def.Words_s.__proj__Mkfour__item__hi2 buf)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_sM dst) == Vale.Def.Words_s.__proj__Mkfour__item__lo1 buf)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_sM dst) == Vale.Def.Words_s.__proj__Mkfour__item__lo0 buf)) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_Load128_word4_buffer_index : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 /\ va_is_src_heaplet h va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_reg_opr base va_s0 /\ va_is_src_reg_opr offset va_s0 /\ va_get_ok va_s0 /\ offset =!= 0 /\ Vale.PPC64LE.Decls.valid_src_addr #Vale.PPC64LE.Memory.vuint128 (va_eval_heaplet va_s0 h) b index /\ Vale.PPC64LE.Memory.valid_layout_buffer #Vale.PPC64LE.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\ Vale.PPC64LE.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr va_s0 base + va_eval_reg_opr va_s0 offset == Vale.PPC64LE.Memory.buffer_addr #Vale.PPC64LE.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (let buf = Vale.PPC64LE.Decls.buffer128_read b index (va_eval_heaplet va_sM h) in l_and (l_and (l_and (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_sM dst) == Vale.Def.Words_s.__proj__Mkfour__item__hi3 buf) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_sM dst) == Vale.Def.Words_s.__proj__Mkfour__item__hi2 buf)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_sM dst) == Vale.Def.Words_s.__proj__Mkfour__item__lo1 buf)) (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_sM dst) == Vale.Def.Words_s.__proj__Mkfour__item__lo0 buf)) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 681, "start_col": 0, "start_line": 673 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> h: Vale.PPC64LE.Decls.va_operand_heaplet -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> b: Vale.PPC64LE.Memory.buffer128 -> index: Prims.int -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Memory.buffer128", "Prims.int", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "Prims.unit", "Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full", "Vale.PPC64LE.Decls.from_heap_impl", "Vale.PPC64LE.Machine_s.__proj__Mkstate__item__ms_heap", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Load128Word4Index", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Load128_word4_buffer_index" ]	[]	false	false	false	false	false	let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index =	va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM)	false
Hacl.Bignum64.fst	Hacl.Bignum64.mont_ctx_free	val mont_ctx_free: MA.bn_field_free_st t_limbs	val mont_ctx_free: MA.bn_field_free_st t_limbs	let mont_ctx_free k = MA.bn_field_free k	{ "file_name": "code/bignum/Hacl.Bignum64.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 20, "end_line": 61, "start_col": 0, "start_line": 60 }	module Hacl.Bignum64 open FStar.Mul module BN = Hacl.Bignum module BE = Hacl.Bignum.Exponentiation module BR = Hacl.Bignum.ModReduction module AM = Hacl.Bignum.AlmostMontgomery module MA = Hacl.Bignum.MontArithmetic module BI = Hacl.Bignum.ModInv module BM = Hacl.Bignum.Montgomery #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" inline_for_extraction noextract let kam (len:BN.meta_len t_limbs) = AM.mk_runtime_almost_mont #t_limbs len inline_for_extraction noextract let ke (len:BN.meta_len t_limbs) = BE.mk_runtime_exp #t_limbs len let add len a b res = (ke len).BE.bn.BN.add a b res let sub len a b res = (ke len).BE.bn.BN.sub a b res let add_mod len n a b res = (ke len).BE.bn.BN.add_mod_n n a b res let sub_mod len n a b res = (ke len).BE.bn.BN.sub_mod_n n a b res let mul len a b res = (ke len).BE.bn.BN.mul a b res let sqr len a res = (ke len).BE.bn.BN.sqr a res [@CInline] let bn_slow_precomp (len:BN.meta_len t_limbs) : BR.bn_mod_slow_precomp_st t_limbs len = BR.bn_mod_slow_precomp (kam len) let mod len n a res = BS.mk_bn_mod_slow_safe len (BR.mk_bn_mod_slow len (kam len).AM.precomp (bn_slow_precomp len)) n a res let mod_exp_vartime len n a bBits b res = BS.mk_bn_mod_exp_safe len (ke len).BE.exp_check (ke len).BE.exp_vt n a bBits b res let mod_exp_consttime len n a bBits b res = BS.mk_bn_mod_exp_safe len (ke len).BE.exp_check (ke len).BE.exp_ct n a bBits b res let mod_inv_prime_vartime len n a res = BS.mk_bn_mod_inv_prime_safe len (ke len).BE.exp_vt n a res let mont_ctx_init len r n = MA.bn_field_init len (ke len).BE.precompr2 r n	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "Hacl.Bignum.Montgomery.fsti.checked", "Hacl.Bignum.MontArithmetic.fsti.checked", "Hacl.Bignum.ModReduction.fst.checked", "Hacl.Bignum.ModInv.fst.checked", "Hacl.Bignum.Exponentiation.fsti.checked", "Hacl.Bignum.Convert.fst.checked", "Hacl.Bignum.AlmostMontgomery.fsti.checked", "Hacl.Bignum.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Hacl.Bignum64.fst" }	[ { "abbrev": true, "full_module": "Hacl.Bignum.Montgomery", "short_module": "BM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModInv", "short_module": "BI" }, { "abbrev": true, "full_module": "Hacl.Bignum.AlmostMontgomery", "short_module": "AM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModReduction", "short_module": "BR" }, { "abbrev": true, "full_module": "Hacl.Bignum.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Hacl.Bignum.MontArithmetic", "short_module": "MA" }, { "abbrev": true, "full_module": "Hacl.Bignum.SafeAPI", "short_module": "BS" }, { "abbrev": true, "full_module": "Hacl.Bignum", "short_module": "BN" }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	Hacl.Bignum.MontArithmetic.bn_field_free_st Hacl.Bignum64.t_limbs	Prims.Tot	[ "total" ]	[]	[ "Hacl.Bignum.MontArithmetic.pbn_mont_ctx", "Hacl.Bignum64.t_limbs", "Hacl.Bignum.MontArithmetic.bn_field_free", "Prims.unit" ]	[]	false	false	false	true	false	let mont_ctx_free k =	MA.bn_field_free k	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.va_Mod_flags		val va_Mod_flags : Vale.X64.QuickCode.mod_t	let va_Mod_flags = Mod_flags	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 47, "end_line": 28, "start_col": 19, "start_line": 28 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t [@va_qattr] unfold let va_Mod_None = Mod_None [@va_qattr] unfold let va_Mod_ok = Mod_ok [@va_qattr] unfold let va_Mod_reg64 (r:reg_64) = Mod_reg (Reg 0 r)	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	Vale.X64.QuickCode.mod_t	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.QuickCode.Mod_flags" ]	[]	false	false	false	true	false	let va_Mod_flags =	Mod_flags	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.va_Mod_mem		val va_Mod_mem : Vale.X64.QuickCode.mod_t	let va_Mod_mem = Mod_mem	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 43, "end_line": 29, "start_col": 19, "start_line": 29 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t [@va_qattr] unfold let va_Mod_None = Mod_None [@va_qattr] unfold let va_Mod_ok = Mod_ok [@va_qattr] unfold let va_Mod_reg64 (r:reg_64) = Mod_reg (Reg 0 r) [@va_qattr] unfold let va_Mod_xmm (r:reg_xmm) = Mod_reg (Reg 1 r)	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	Vale.X64.QuickCode.mod_t	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.QuickCode.Mod_mem" ]	[]	false	false	false	true	false	let va_Mod_mem =	Mod_mem	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_RotWord	val va_wpProof_RotWord : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_RotWord dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_RotWord dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_RotWord : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_RotWord dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_RotWord dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_RotWord dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_RotWord (va_code_RotWord dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 1083, "start_col": 0, "start_line": 1077 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma1 (va_code_SHA256_Sigma1 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsbox [@ "opaque_to_smt"] let va_code_Vsbox dst src = (Ins (S.Vsbox dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vsbox dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsbox va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vsbox) (va_code_Vsbox dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsbox dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsbox dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsbox dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsbox (va_code_Vsbox dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- RotWord [@ "opaque_to_smt"] let va_code_RotWord dst src1 src2 = (Ins (S.RotWord dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_RotWord dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_RotWord va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_RotWord) (va_code_RotWord dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.RotWord dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.RotWord dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_RotWord", "Vale.PPC64LE.InsVector.va_code_RotWord" ]	[]	false	false	false	false	false	let va_wpProof_RotWord dst src1 src2 va_s0 va_k =	let va_sM, va_f0 = va_lemma_RotWord (va_code_RotWord dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Hacl.Bignum64.fst	Hacl.Bignum64.new_bn_from_bytes_be	val new_bn_from_bytes_be: BS.new_bn_from_bytes_be_st t_limbs	val new_bn_from_bytes_be: BS.new_bn_from_bytes_be_st t_limbs	let new_bn_from_bytes_be r len b = BS.new_bn_from_bytes_be r len b	{ "file_name": "code/bignum/Hacl.Bignum64.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 33, "end_line": 81, "start_col": 0, "start_line": 80 }	module Hacl.Bignum64 open FStar.Mul module BN = Hacl.Bignum module BE = Hacl.Bignum.Exponentiation module BR = Hacl.Bignum.ModReduction module AM = Hacl.Bignum.AlmostMontgomery module MA = Hacl.Bignum.MontArithmetic module BI = Hacl.Bignum.ModInv module BM = Hacl.Bignum.Montgomery #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" inline_for_extraction noextract let kam (len:BN.meta_len t_limbs) = AM.mk_runtime_almost_mont #t_limbs len inline_for_extraction noextract let ke (len:BN.meta_len t_limbs) = BE.mk_runtime_exp #t_limbs len let add len a b res = (ke len).BE.bn.BN.add a b res let sub len a b res = (ke len).BE.bn.BN.sub a b res let add_mod len n a b res = (ke len).BE.bn.BN.add_mod_n n a b res let sub_mod len n a b res = (ke len).BE.bn.BN.sub_mod_n n a b res let mul len a b res = (ke len).BE.bn.BN.mul a b res let sqr len a res = (ke len).BE.bn.BN.sqr a res [@CInline] let bn_slow_precomp (len:BN.meta_len t_limbs) : BR.bn_mod_slow_precomp_st t_limbs len = BR.bn_mod_slow_precomp (kam len) let mod len n a res = BS.mk_bn_mod_slow_safe len (BR.mk_bn_mod_slow len (kam len).AM.precomp (bn_slow_precomp len)) n a res let mod_exp_vartime len n a bBits b res = BS.mk_bn_mod_exp_safe len (ke len).BE.exp_check (ke len).BE.exp_vt n a bBits b res let mod_exp_consttime len n a bBits b res = BS.mk_bn_mod_exp_safe len (ke len).BE.exp_check (ke len).BE.exp_ct n a bBits b res let mod_inv_prime_vartime len n a res = BS.mk_bn_mod_inv_prime_safe len (ke len).BE.exp_vt n a res let mont_ctx_init len r n = MA.bn_field_init len (ke len).BE.precompr2 r n let mont_ctx_free k = MA.bn_field_free k let mod_precomp len k a res = let len1 = MA.bn_field_get_len k in BS.bn_mod_ctx len (bn_slow_precomp len1) k a res let mod_exp_vartime_precomp len k a bBits b res = let len1 = MA.bn_field_get_len k in BS.mk_bn_mod_exp_ctx len (ke len1).BE.exp_vt_precomp k a bBits b res let mod_exp_consttime_precomp len k a bBits b res = let len1 = MA.bn_field_get_len k in BS.mk_bn_mod_exp_ctx len (ke len1).BE.exp_ct_precomp k a bBits b res let mod_inv_prime_vartime_precomp len k a res = let len1 = MA.bn_field_get_len k in BS.mk_bn_mod_inv_prime_ctx len (BI.mk_bn_mod_inv_prime_precomp len1 (ke len1).BE.exp_vt_precomp) k a res	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "Hacl.Bignum.Montgomery.fsti.checked", "Hacl.Bignum.MontArithmetic.fsti.checked", "Hacl.Bignum.ModReduction.fst.checked", "Hacl.Bignum.ModInv.fst.checked", "Hacl.Bignum.Exponentiation.fsti.checked", "Hacl.Bignum.Convert.fst.checked", "Hacl.Bignum.AlmostMontgomery.fsti.checked", "Hacl.Bignum.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Hacl.Bignum64.fst" }	[ { "abbrev": true, "full_module": "Hacl.Bignum.Montgomery", "short_module": "BM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModInv", "short_module": "BI" }, { "abbrev": true, "full_module": "Hacl.Bignum.AlmostMontgomery", "short_module": "AM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModReduction", "short_module": "BR" }, { "abbrev": true, "full_module": "Hacl.Bignum.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Hacl.Bignum.MontArithmetic", "short_module": "MA" }, { "abbrev": true, "full_module": "Hacl.Bignum.SafeAPI", "short_module": "BS" }, { "abbrev": true, "full_module": "Hacl.Bignum", "short_module": "BN" }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	Hacl.Bignum.SafeAPI.new_bn_from_bytes_be_st Hacl.Bignum64.t_limbs	Prims.Tot	[ "total" ]	[]	[ "FStar.Monotonic.HyperHeap.rid", "Lib.IntTypes.size_t", "Lib.Buffer.lbuffer", "Lib.IntTypes.uint8", "Hacl.Bignum.SafeAPI.new_bn_from_bytes_be", "Hacl.Bignum64.t_limbs", "LowStar.Buffer.buffer", "Hacl.Bignum.Definitions.limb" ]	[]	false	false	false	true	false	let new_bn_from_bytes_be r len b =	BS.new_bn_from_bytes_be r len b	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Load128_byte16_buffer_index	val va_lemma_Load128_byte16_buffer_index : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 /\ va_is_src_heaplet h va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_reg_opr base va_s0 /\ va_is_src_reg_opr offset va_s0 /\ va_get_ok va_s0 /\ offset =!= 0 /\ Vale.PPC64LE.Decls.valid_src_addr #Vale.PPC64LE.Memory.vuint128 (va_eval_heaplet va_s0 h) b index /\ Vale.PPC64LE.Memory.valid_layout_buffer #Vale.PPC64LE.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\ Vale.PPC64LE.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr va_s0 base + va_eval_reg_opr va_s0 offset == Vale.PPC64LE.Memory.buffer_addr #Vale.PPC64LE.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.PPC64LE.Decls.buffer128_read b index (va_eval_heaplet va_sM h)) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_Load128_byte16_buffer_index : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet -> dst:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 /\ va_is_src_heaplet h va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_reg_opr base va_s0 /\ va_is_src_reg_opr offset va_s0 /\ va_get_ok va_s0 /\ offset =!= 0 /\ Vale.PPC64LE.Decls.valid_src_addr #Vale.PPC64LE.Memory.vuint128 (va_eval_heaplet va_s0 h) b index /\ Vale.PPC64LE.Memory.valid_layout_buffer #Vale.PPC64LE.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) false /\ Vale.PPC64LE.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr va_s0 base + va_eval_reg_opr va_s0 offset == Vale.PPC64LE.Memory.buffer_addr #Vale.PPC64LE.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.PPC64LE.Decls.buffer128_read b index (va_eval_heaplet va_sM h)) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 821, "start_col": 0, "start_line": 813 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> h: Vale.PPC64LE.Decls.va_operand_heaplet -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> b: Vale.PPC64LE.Memory.buffer128 -> index: Prims.int -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Memory.buffer128", "Prims.int", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "Prims.unit", "Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full", "Vale.PPC64LE.Decls.from_heap_impl", "Vale.PPC64LE.Machine_s.__proj__Mkstate__item__ms_heap", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Load128Byte16Index", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Load128_byte16_buffer_index" ]	[]	false	false	false	false	false	let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index =	va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Store128_byte16_buffer	val va_lemma_Store128_byte16_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Store128_byte16_buffer h src base t) va_s0 /\ va_is_dst_heaplet h va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_is_src_reg_opr base va_s0 /\ va_get_ok va_s0 /\ Vale.PPC64LE.Decls.valid_dst_addr #Vale.PPC64LE.Memory.vuint128 (va_eval_heaplet va_s0 h) b index /\ Vale.PPC64LE.Memory.valid_layout_buffer #Vale.PPC64LE.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.PPC64LE.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr va_s0 base == Vale.PPC64LE.Memory.buffer_addr #Vale.PPC64LE.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_heaplet va_sM h == buffer128_write b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_s0 src)) (va_eval_heaplet va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))))	val va_lemma_Store128_byte16_buffer : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Store128_byte16_buffer h src base t) va_s0 /\ va_is_dst_heaplet h va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_is_src_reg_opr base va_s0 /\ va_get_ok va_s0 /\ Vale.PPC64LE.Decls.valid_dst_addr #Vale.PPC64LE.Memory.vuint128 (va_eval_heaplet va_s0 h) b index /\ Vale.PPC64LE.Memory.valid_layout_buffer #Vale.PPC64LE.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.PPC64LE.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr va_s0 base == Vale.PPC64LE.Memory.buffer_addr #Vale.PPC64LE.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_heaplet va_sM h == buffer128_write b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_s0 src)) (va_eval_heaplet va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))))	let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 854, "start_col": 0, "start_line": 846 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> h: Vale.PPC64LE.Decls.va_operand_heaplet -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> b: Vale.PPC64LE.Memory.buffer128 -> index: Prims.int -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Memory.buffer128", "Prims.int", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "Prims.unit", "Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full", "Vale.Def.Types_s.reverse_bytes_quad32", "Vale.PPC64LE.Decls.va_eval_vec_opr", "Vale.PPC64LE.Decls.from_heap_impl", "Vale.PPC64LE.Machine_s.__proj__Mkstate__item__ms_heap", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Store128Byte16", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Store128_byte16_buffer" ]	[]	false	false	false	false	false	let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index =	va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM)	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.va_Mod_mem_heaplet		val va_Mod_mem_heaplet : n: Vale.X64.Decls.heaplet_id -> Vale.X64.QuickCode.mod_t	let va_Mod_mem_heaplet (n:heaplet_id) = Mod_mem_heaplet n	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 76, "end_line": 31, "start_col": 19, "start_line": 31 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t [@va_qattr] unfold let va_Mod_None = Mod_None [@va_qattr] unfold let va_Mod_ok = Mod_ok [@va_qattr] unfold let va_Mod_reg64 (r:reg_64) = Mod_reg (Reg 0 r) [@va_qattr] unfold let va_Mod_xmm (r:reg_xmm) = Mod_reg (Reg 1 r) [@va_qattr] unfold let va_Mod_flags = Mod_flags [@va_qattr] unfold let va_Mod_mem = Mod_mem	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	n: Vale.X64.Decls.heaplet_id -> Vale.X64.QuickCode.mod_t	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Decls.heaplet_id", "Vale.X64.QuickCode.Mod_mem_heaplet", "Vale.X64.QuickCode.mod_t" ]	[]	false	false	false	true	false	let va_Mod_mem_heaplet (n: heaplet_id) =	Mod_mem_heaplet n	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.va_Mod_mem_layout		val va_Mod_mem_layout : Vale.X64.QuickCode.mod_t	let va_Mod_mem_layout = Mod_mem_layout	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 57, "end_line": 30, "start_col": 19, "start_line": 30 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t [@va_qattr] unfold let va_Mod_None = Mod_None [@va_qattr] unfold let va_Mod_ok = Mod_ok [@va_qattr] unfold let va_Mod_reg64 (r:reg_64) = Mod_reg (Reg 0 r) [@va_qattr] unfold let va_Mod_xmm (r:reg_xmm) = Mod_reg (Reg 1 r) [@va_qattr] unfold let va_Mod_flags = Mod_flags	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	Vale.X64.QuickCode.mod_t	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.QuickCode.Mod_mem_layout" ]	[]	false	false	false	true	false	let va_Mod_mem_layout =	Mod_mem_layout	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.va_Mod_reg64		val va_Mod_reg64 : r: Vale.X64.Machine_s.reg_64 -> Vale.X64.QuickCode.mod_t	let va_Mod_reg64 (r:reg_64) = Mod_reg (Reg 0 r)	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 66, "end_line": 26, "start_col": 19, "start_line": 26 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t [@va_qattr] unfold let va_Mod_None = Mod_None	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	r: Vale.X64.Machine_s.reg_64 -> Vale.X64.QuickCode.mod_t	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Machine_s.reg_64", "Vale.X64.QuickCode.Mod_reg", "Vale.X64.Machine_s.Reg", "Vale.X64.QuickCode.mod_t" ]	[]	false	false	false	true	false	let va_Mod_reg64 (r: reg_64) =	Mod_reg (Reg 0 r)	false
Hacl.Bignum64.fst	Hacl.Bignum64.sub	val sub: len:BN.meta_len t_limbs -> BN.bn_sub_eq_len_st t_limbs len	val sub: len:BN.meta_len t_limbs -> BN.bn_sub_eq_len_st t_limbs len	let sub len a b res = (ke len).BE.bn.BN.sub a b res	{ "file_name": "code/bignum/Hacl.Bignum64.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 31, "end_line": 27, "start_col": 0, "start_line": 26 }	module Hacl.Bignum64 open FStar.Mul module BN = Hacl.Bignum module BE = Hacl.Bignum.Exponentiation module BR = Hacl.Bignum.ModReduction module AM = Hacl.Bignum.AlmostMontgomery module MA = Hacl.Bignum.MontArithmetic module BI = Hacl.Bignum.ModInv module BM = Hacl.Bignum.Montgomery #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" inline_for_extraction noextract let kam (len:BN.meta_len t_limbs) = AM.mk_runtime_almost_mont #t_limbs len inline_for_extraction noextract let ke (len:BN.meta_len t_limbs) = BE.mk_runtime_exp #t_limbs len let add len a b res = (ke len).BE.bn.BN.add a b res	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "Hacl.Bignum.Montgomery.fsti.checked", "Hacl.Bignum.MontArithmetic.fsti.checked", "Hacl.Bignum.ModReduction.fst.checked", "Hacl.Bignum.ModInv.fst.checked", "Hacl.Bignum.Exponentiation.fsti.checked", "Hacl.Bignum.Convert.fst.checked", "Hacl.Bignum.AlmostMontgomery.fsti.checked", "Hacl.Bignum.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Hacl.Bignum64.fst" }	[ { "abbrev": true, "full_module": "Hacl.Bignum.Montgomery", "short_module": "BM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModInv", "short_module": "BI" }, { "abbrev": true, "full_module": "Hacl.Bignum.AlmostMontgomery", "short_module": "AM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModReduction", "short_module": "BR" }, { "abbrev": true, "full_module": "Hacl.Bignum.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Hacl.Bignum.MontArithmetic", "short_module": "MA" }, { "abbrev": true, "full_module": "Hacl.Bignum.SafeAPI", "short_module": "BS" }, { "abbrev": true, "full_module": "Hacl.Bignum", "short_module": "BN" }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	len: Hacl.Bignum.meta_len Hacl.Bignum64.t_limbs -> Hacl.Bignum.bn_sub_eq_len_st Hacl.Bignum64.t_limbs len	Prims.Tot	[ "total" ]	[]	[ "Hacl.Bignum.meta_len", "Hacl.Bignum64.t_limbs", "Hacl.Bignum.Definitions.lbignum", "Hacl.Bignum.__proj__Mkbn__item__sub", "Hacl.Bignum.Exponentiation.__proj__Mkexp__item__bn", "Hacl.Bignum64.ke", "Hacl.Spec.Bignum.Base.carry" ]	[]	false	false	false	false	false	let sub len a b res =	(ke len).BE.bn.BN.sub a b res	false
Hacl.Bignum64.fst	Hacl.Bignum64.lt_mask	val lt_mask: len:_ -> BN.bn_lt_mask_st t_limbs len	val lt_mask: len:_ -> BN.bn_lt_mask_st t_limbs len	let lt_mask len a b = BN.bn_lt_mask len a b	{ "file_name": "code/bignum/Hacl.Bignum64.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 23, "end_line": 93, "start_col": 0, "start_line": 92 }	module Hacl.Bignum64 open FStar.Mul module BN = Hacl.Bignum module BE = Hacl.Bignum.Exponentiation module BR = Hacl.Bignum.ModReduction module AM = Hacl.Bignum.AlmostMontgomery module MA = Hacl.Bignum.MontArithmetic module BI = Hacl.Bignum.ModInv module BM = Hacl.Bignum.Montgomery #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" inline_for_extraction noextract let kam (len:BN.meta_len t_limbs) = AM.mk_runtime_almost_mont #t_limbs len inline_for_extraction noextract let ke (len:BN.meta_len t_limbs) = BE.mk_runtime_exp #t_limbs len let add len a b res = (ke len).BE.bn.BN.add a b res let sub len a b res = (ke len).BE.bn.BN.sub a b res let add_mod len n a b res = (ke len).BE.bn.BN.add_mod_n n a b res let sub_mod len n a b res = (ke len).BE.bn.BN.sub_mod_n n a b res let mul len a b res = (ke len).BE.bn.BN.mul a b res let sqr len a res = (ke len).BE.bn.BN.sqr a res [@CInline] let bn_slow_precomp (len:BN.meta_len t_limbs) : BR.bn_mod_slow_precomp_st t_limbs len = BR.bn_mod_slow_precomp (kam len) let mod len n a res = BS.mk_bn_mod_slow_safe len (BR.mk_bn_mod_slow len (kam len).AM.precomp (bn_slow_precomp len)) n a res let mod_exp_vartime len n a bBits b res = BS.mk_bn_mod_exp_safe len (ke len).BE.exp_check (ke len).BE.exp_vt n a bBits b res let mod_exp_consttime len n a bBits b res = BS.mk_bn_mod_exp_safe len (ke len).BE.exp_check (ke len).BE.exp_ct n a bBits b res let mod_inv_prime_vartime len n a res = BS.mk_bn_mod_inv_prime_safe len (ke len).BE.exp_vt n a res let mont_ctx_init len r n = MA.bn_field_init len (ke len).BE.precompr2 r n let mont_ctx_free k = MA.bn_field_free k let mod_precomp len k a res = let len1 = MA.bn_field_get_len k in BS.bn_mod_ctx len (bn_slow_precomp len1) k a res let mod_exp_vartime_precomp len k a bBits b res = let len1 = MA.bn_field_get_len k in BS.mk_bn_mod_exp_ctx len (ke len1).BE.exp_vt_precomp k a bBits b res let mod_exp_consttime_precomp len k a bBits b res = let len1 = MA.bn_field_get_len k in BS.mk_bn_mod_exp_ctx len (ke len1).BE.exp_ct_precomp k a bBits b res let mod_inv_prime_vartime_precomp len k a res = let len1 = MA.bn_field_get_len k in BS.mk_bn_mod_inv_prime_ctx len (BI.mk_bn_mod_inv_prime_precomp len1 (ke len1).BE.exp_vt_precomp) k a res let new_bn_from_bytes_be r len b = BS.new_bn_from_bytes_be r len b let new_bn_from_bytes_le r len b = BS.new_bn_from_bytes_le r len b let bn_to_bytes_be len b res = Hacl.Bignum.Convert.mk_bn_to_bytes_be false len b res let bn_to_bytes_le len b res = Hacl.Bignum.Convert.mk_bn_to_bytes_le false len b res	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "Hacl.Bignum.Montgomery.fsti.checked", "Hacl.Bignum.MontArithmetic.fsti.checked", "Hacl.Bignum.ModReduction.fst.checked", "Hacl.Bignum.ModInv.fst.checked", "Hacl.Bignum.Exponentiation.fsti.checked", "Hacl.Bignum.Convert.fst.checked", "Hacl.Bignum.AlmostMontgomery.fsti.checked", "Hacl.Bignum.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Hacl.Bignum64.fst" }	[ { "abbrev": true, "full_module": "Hacl.Bignum.Montgomery", "short_module": "BM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModInv", "short_module": "BI" }, { "abbrev": true, "full_module": "Hacl.Bignum.AlmostMontgomery", "short_module": "AM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModReduction", "short_module": "BR" }, { "abbrev": true, "full_module": "Hacl.Bignum.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Hacl.Bignum.MontArithmetic", "short_module": "MA" }, { "abbrev": true, "full_module": "Hacl.Bignum.SafeAPI", "short_module": "BS" }, { "abbrev": true, "full_module": "Hacl.Bignum", "short_module": "BN" }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	len: Lib.IntTypes.size_t -> Hacl.Bignum.bn_lt_mask_st Hacl.Bignum64.t_limbs len	Prims.Tot	[ "total" ]	[]	[ "Lib.IntTypes.size_t", "Hacl.Bignum.Definitions.lbignum", "Hacl.Bignum64.t_limbs", "Hacl.Bignum.bn_lt_mask", "Hacl.Bignum.Definitions.limb" ]	[]	false	false	false	false	false	let lt_mask len a b =	BN.bn_lt_mask len a b	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.va_Mod_stackTaint		val va_Mod_stackTaint : Vale.X64.QuickCode.mod_t	let va_Mod_stackTaint = Mod_stackTaint	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 57, "end_line": 33, "start_col": 19, "start_line": 33 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t [@va_qattr] unfold let va_Mod_None = Mod_None [@va_qattr] unfold let va_Mod_ok = Mod_ok [@va_qattr] unfold let va_Mod_reg64 (r:reg_64) = Mod_reg (Reg 0 r) [@va_qattr] unfold let va_Mod_xmm (r:reg_xmm) = Mod_reg (Reg 1 r) [@va_qattr] unfold let va_Mod_flags = Mod_flags [@va_qattr] unfold let va_Mod_mem = Mod_mem [@va_qattr] unfold let va_Mod_mem_layout = Mod_mem_layout [@va_qattr] unfold let va_Mod_mem_heaplet (n:heaplet_id) = Mod_mem_heaplet n	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	Vale.X64.QuickCode.mod_t	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.QuickCode.Mod_stackTaint" ]	[]	false	false	false	true	false	let va_Mod_stackTaint =	Mod_stackTaint	false
Hacl.Bignum64.fst	Hacl.Bignum64.new_bn_from_bytes_le	val new_bn_from_bytes_le: BS.new_bn_from_bytes_le_st t_limbs	val new_bn_from_bytes_le: BS.new_bn_from_bytes_le_st t_limbs	let new_bn_from_bytes_le r len b = BS.new_bn_from_bytes_le r len b	{ "file_name": "code/bignum/Hacl.Bignum64.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 33, "end_line": 84, "start_col": 0, "start_line": 83 }	module Hacl.Bignum64 open FStar.Mul module BN = Hacl.Bignum module BE = Hacl.Bignum.Exponentiation module BR = Hacl.Bignum.ModReduction module AM = Hacl.Bignum.AlmostMontgomery module MA = Hacl.Bignum.MontArithmetic module BI = Hacl.Bignum.ModInv module BM = Hacl.Bignum.Montgomery #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" inline_for_extraction noextract let kam (len:BN.meta_len t_limbs) = AM.mk_runtime_almost_mont #t_limbs len inline_for_extraction noextract let ke (len:BN.meta_len t_limbs) = BE.mk_runtime_exp #t_limbs len let add len a b res = (ke len).BE.bn.BN.add a b res let sub len a b res = (ke len).BE.bn.BN.sub a b res let add_mod len n a b res = (ke len).BE.bn.BN.add_mod_n n a b res let sub_mod len n a b res = (ke len).BE.bn.BN.sub_mod_n n a b res let mul len a b res = (ke len).BE.bn.BN.mul a b res let sqr len a res = (ke len).BE.bn.BN.sqr a res [@CInline] let bn_slow_precomp (len:BN.meta_len t_limbs) : BR.bn_mod_slow_precomp_st t_limbs len = BR.bn_mod_slow_precomp (kam len) let mod len n a res = BS.mk_bn_mod_slow_safe len (BR.mk_bn_mod_slow len (kam len).AM.precomp (bn_slow_precomp len)) n a res let mod_exp_vartime len n a bBits b res = BS.mk_bn_mod_exp_safe len (ke len).BE.exp_check (ke len).BE.exp_vt n a bBits b res let mod_exp_consttime len n a bBits b res = BS.mk_bn_mod_exp_safe len (ke len).BE.exp_check (ke len).BE.exp_ct n a bBits b res let mod_inv_prime_vartime len n a res = BS.mk_bn_mod_inv_prime_safe len (ke len).BE.exp_vt n a res let mont_ctx_init len r n = MA.bn_field_init len (ke len).BE.precompr2 r n let mont_ctx_free k = MA.bn_field_free k let mod_precomp len k a res = let len1 = MA.bn_field_get_len k in BS.bn_mod_ctx len (bn_slow_precomp len1) k a res let mod_exp_vartime_precomp len k a bBits b res = let len1 = MA.bn_field_get_len k in BS.mk_bn_mod_exp_ctx len (ke len1).BE.exp_vt_precomp k a bBits b res let mod_exp_consttime_precomp len k a bBits b res = let len1 = MA.bn_field_get_len k in BS.mk_bn_mod_exp_ctx len (ke len1).BE.exp_ct_precomp k a bBits b res let mod_inv_prime_vartime_precomp len k a res = let len1 = MA.bn_field_get_len k in BS.mk_bn_mod_inv_prime_ctx len (BI.mk_bn_mod_inv_prime_precomp len1 (ke len1).BE.exp_vt_precomp) k a res let new_bn_from_bytes_be r len b = BS.new_bn_from_bytes_be r len b	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "Hacl.Bignum.Montgomery.fsti.checked", "Hacl.Bignum.MontArithmetic.fsti.checked", "Hacl.Bignum.ModReduction.fst.checked", "Hacl.Bignum.ModInv.fst.checked", "Hacl.Bignum.Exponentiation.fsti.checked", "Hacl.Bignum.Convert.fst.checked", "Hacl.Bignum.AlmostMontgomery.fsti.checked", "Hacl.Bignum.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Hacl.Bignum64.fst" }	[ { "abbrev": true, "full_module": "Hacl.Bignum.Montgomery", "short_module": "BM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModInv", "short_module": "BI" }, { "abbrev": true, "full_module": "Hacl.Bignum.AlmostMontgomery", "short_module": "AM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModReduction", "short_module": "BR" }, { "abbrev": true, "full_module": "Hacl.Bignum.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Hacl.Bignum.MontArithmetic", "short_module": "MA" }, { "abbrev": true, "full_module": "Hacl.Bignum.SafeAPI", "short_module": "BS" }, { "abbrev": true, "full_module": "Hacl.Bignum", "short_module": "BN" }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	Hacl.Bignum.SafeAPI.new_bn_from_bytes_le_st Hacl.Bignum64.t_limbs	Prims.Tot	[ "total" ]	[]	[ "FStar.Monotonic.HyperHeap.rid", "Lib.IntTypes.size_t", "Lib.Buffer.lbuffer", "Lib.IntTypes.uint8", "Hacl.Bignum.SafeAPI.new_bn_from_bytes_le", "Hacl.Bignum64.t_limbs", "LowStar.Buffer.buffer", "Hacl.Bignum.Definitions.limb" ]	[]	false	false	false	true	false	let new_bn_from_bytes_le r len b =	BS.new_bn_from_bytes_le r len b	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_SHA256_sigma0	val va_lemma_SHA256_sigma0 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src:va_operand_vec_opr -> t:counter -> block:block_w -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_SHA256_sigma0 dst src) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_get_ok va_s0 /\ ((16 <= t && t < size_k_w_256)) /\ (va_eval_vec_opr va_s0 src).hi3 == ws_opaque block (t - 15))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_eval_vec_opr va_sM dst).hi3 == sigma_0_0_partial t block /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_SHA256_sigma0 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src:va_operand_vec_opr -> t:counter -> block:block_w -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_SHA256_sigma0 dst src) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_get_ok va_s0 /\ ((16 <= t && t < size_k_w_256)) /\ (va_eval_vec_opr va_s0 src).hi3 == ws_opaque block (t - 15))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_eval_vec_opr va_sM dst).hi3 == sigma_0_0_partial t block /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 921, "start_col": 0, "start_line": 915 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> t: Vale.SHA.PPC64LE.SHA_helpers.counter -> block: Vale.SHA.PPC64LE.SHA_helpers.block_w -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.SHA.PPC64LE.SHA_helpers.counter", "Vale.SHA.PPC64LE.SHA_helpers.block_w", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "Prims.unit", "Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma0", "Vale.PPC64LE.Decls.va_eval_vec_opr", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Vshasigmaw0", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_SHA256_sigma0" ]	[]	false	false	false	false	false	let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block =	va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM)	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.va_Mod_stack		val va_Mod_stack : Vale.X64.QuickCode.mod_t	let va_Mod_stack = Mod_stack	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 47, "end_line": 32, "start_col": 19, "start_line": 32 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t [@va_qattr] unfold let va_Mod_None = Mod_None [@va_qattr] unfold let va_Mod_ok = Mod_ok [@va_qattr] unfold let va_Mod_reg64 (r:reg_64) = Mod_reg (Reg 0 r) [@va_qattr] unfold let va_Mod_xmm (r:reg_xmm) = Mod_reg (Reg 1 r) [@va_qattr] unfold let va_Mod_flags = Mod_flags [@va_qattr] unfold let va_Mod_mem = Mod_mem [@va_qattr] unfold let va_Mod_mem_layout = Mod_mem_layout	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	Vale.X64.QuickCode.mod_t	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.QuickCode.Mod_stack" ]	[]	false	false	false	true	false	let va_Mod_stack =	Mod_stack	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_SHA256_Sigma0	val va_lemma_SHA256_Sigma0 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src:va_operand_vec_opr -> t:counter -> block:block_w -> hash_orig:hash256 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_SHA256_Sigma0 dst src) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_get_ok va_s0 /\ t < size_k_w_256 /\ Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src) == Vale.SHA.PPC64LE.SHA_helpers.word_to_nat32 (FStar.Seq.Base.index #Vale.SHA.PPC64LE.SHA_helpers.word (Vale.SHA.PPC64LE.SHA_helpers.repeat_range_vale t block hash_orig) 0))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_sM dst) == Vale.SHA.PPC64LE.SHA_helpers.sigma_1_0_partial t block hash_orig /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_SHA256_Sigma0 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src:va_operand_vec_opr -> t:counter -> block:block_w -> hash_orig:hash256 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_SHA256_Sigma0 dst src) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_get_ok va_s0 /\ t < size_k_w_256 /\ Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src) == Vale.SHA.PPC64LE.SHA_helpers.word_to_nat32 (FStar.Seq.Base.index #Vale.SHA.PPC64LE.SHA_helpers.word (Vale.SHA.PPC64LE.SHA_helpers.repeat_range_vale t block hash_orig) 0))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_sM dst) == Vale.SHA.PPC64LE.SHA_helpers.sigma_1_0_partial t block hash_orig /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 983, "start_col": 0, "start_line": 977 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> t: Vale.SHA.PPC64LE.SHA_helpers.counter -> block: Vale.SHA.PPC64LE.SHA_helpers.block_w -> hash_orig: Vale.SHA.PPC64LE.SHA_helpers.hash256 -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.SHA.PPC64LE.SHA_helpers.counter", "Vale.SHA.PPC64LE.SHA_helpers.block_w", "Vale.SHA.PPC64LE.SHA_helpers.hash256", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "Prims.unit", "Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2", "Vale.PPC64LE.Decls.va_eval_vec_opr", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Vshasigmaw2", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_SHA256_Sigma0" ]	[]	false	false	false	false	false	let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig =	va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM)	false
Hacl.Bignum64.fst	Hacl.Bignum64.eq_mask	val eq_mask: len:_ -> BN.bn_eq_mask_st t_limbs len	val eq_mask: len:_ -> BN.bn_eq_mask_st t_limbs len	let eq_mask len a b = BN.bn_eq_mask len a b	{ "file_name": "code/bignum/Hacl.Bignum64.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 23, "end_line": 96, "start_col": 0, "start_line": 95 }	module Hacl.Bignum64 open FStar.Mul module BN = Hacl.Bignum module BE = Hacl.Bignum.Exponentiation module BR = Hacl.Bignum.ModReduction module AM = Hacl.Bignum.AlmostMontgomery module MA = Hacl.Bignum.MontArithmetic module BI = Hacl.Bignum.ModInv module BM = Hacl.Bignum.Montgomery #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" inline_for_extraction noextract let kam (len:BN.meta_len t_limbs) = AM.mk_runtime_almost_mont #t_limbs len inline_for_extraction noextract let ke (len:BN.meta_len t_limbs) = BE.mk_runtime_exp #t_limbs len let add len a b res = (ke len).BE.bn.BN.add a b res let sub len a b res = (ke len).BE.bn.BN.sub a b res let add_mod len n a b res = (ke len).BE.bn.BN.add_mod_n n a b res let sub_mod len n a b res = (ke len).BE.bn.BN.sub_mod_n n a b res let mul len a b res = (ke len).BE.bn.BN.mul a b res let sqr len a res = (ke len).BE.bn.BN.sqr a res [@CInline] let bn_slow_precomp (len:BN.meta_len t_limbs) : BR.bn_mod_slow_precomp_st t_limbs len = BR.bn_mod_slow_precomp (kam len) let mod len n a res = BS.mk_bn_mod_slow_safe len (BR.mk_bn_mod_slow len (kam len).AM.precomp (bn_slow_precomp len)) n a res let mod_exp_vartime len n a bBits b res = BS.mk_bn_mod_exp_safe len (ke len).BE.exp_check (ke len).BE.exp_vt n a bBits b res let mod_exp_consttime len n a bBits b res = BS.mk_bn_mod_exp_safe len (ke len).BE.exp_check (ke len).BE.exp_ct n a bBits b res let mod_inv_prime_vartime len n a res = BS.mk_bn_mod_inv_prime_safe len (ke len).BE.exp_vt n a res let mont_ctx_init len r n = MA.bn_field_init len (ke len).BE.precompr2 r n let mont_ctx_free k = MA.bn_field_free k let mod_precomp len k a res = let len1 = MA.bn_field_get_len k in BS.bn_mod_ctx len (bn_slow_precomp len1) k a res let mod_exp_vartime_precomp len k a bBits b res = let len1 = MA.bn_field_get_len k in BS.mk_bn_mod_exp_ctx len (ke len1).BE.exp_vt_precomp k a bBits b res let mod_exp_consttime_precomp len k a bBits b res = let len1 = MA.bn_field_get_len k in BS.mk_bn_mod_exp_ctx len (ke len1).BE.exp_ct_precomp k a bBits b res let mod_inv_prime_vartime_precomp len k a res = let len1 = MA.bn_field_get_len k in BS.mk_bn_mod_inv_prime_ctx len (BI.mk_bn_mod_inv_prime_precomp len1 (ke len1).BE.exp_vt_precomp) k a res let new_bn_from_bytes_be r len b = BS.new_bn_from_bytes_be r len b let new_bn_from_bytes_le r len b = BS.new_bn_from_bytes_le r len b let bn_to_bytes_be len b res = Hacl.Bignum.Convert.mk_bn_to_bytes_be false len b res let bn_to_bytes_le len b res = Hacl.Bignum.Convert.mk_bn_to_bytes_le false len b res let lt_mask len a b = BN.bn_lt_mask len a b	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "Hacl.Bignum.Montgomery.fsti.checked", "Hacl.Bignum.MontArithmetic.fsti.checked", "Hacl.Bignum.ModReduction.fst.checked", "Hacl.Bignum.ModInv.fst.checked", "Hacl.Bignum.Exponentiation.fsti.checked", "Hacl.Bignum.Convert.fst.checked", "Hacl.Bignum.AlmostMontgomery.fsti.checked", "Hacl.Bignum.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Hacl.Bignum64.fst" }	[ { "abbrev": true, "full_module": "Hacl.Bignum.Montgomery", "short_module": "BM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModInv", "short_module": "BI" }, { "abbrev": true, "full_module": "Hacl.Bignum.AlmostMontgomery", "short_module": "AM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModReduction", "short_module": "BR" }, { "abbrev": true, "full_module": "Hacl.Bignum.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Hacl.Bignum.MontArithmetic", "short_module": "MA" }, { "abbrev": true, "full_module": "Hacl.Bignum.SafeAPI", "short_module": "BS" }, { "abbrev": true, "full_module": "Hacl.Bignum", "short_module": "BN" }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	len: Lib.IntTypes.size_t -> Hacl.Bignum.bn_eq_mask_st Hacl.Bignum64.t_limbs len	Prims.Tot	[ "total" ]	[]	[ "Lib.IntTypes.size_t", "Hacl.Bignum.Definitions.lbignum", "Hacl.Bignum64.t_limbs", "Hacl.Bignum.bn_eq_mask", "Hacl.Bignum.Definitions.limb" ]	[]	false	false	false	false	false	let eq_mask len a b =	BN.bn_eq_mask len a b	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Vcipher	val va_wpProof_Vcipher : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vcipher dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vcipher dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Vcipher : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vcipher dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vcipher dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Vcipher dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcipher (va_code_Vcipher dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 1112, "start_col": 0, "start_line": 1106 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma1 (va_code_SHA256_Sigma1 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsbox [@ "opaque_to_smt"] let va_code_Vsbox dst src = (Ins (S.Vsbox dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vsbox dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsbox va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vsbox) (va_code_Vsbox dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsbox dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsbox dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsbox dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsbox (va_code_Vsbox dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- RotWord [@ "opaque_to_smt"] let va_code_RotWord dst src1 src2 = (Ins (S.RotWord dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_RotWord dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_RotWord va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_RotWord) (va_code_RotWord dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.RotWord dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.RotWord dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_RotWord dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_RotWord (va_code_RotWord dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipher [@ "opaque_to_smt"] let va_code_Vcipher dst src1 src2 = (Ins (S.Vcipher dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcipher dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcipher va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcipher) (va_code_Vcipher dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcipher dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcipher dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Vcipher", "Vale.PPC64LE.InsVector.va_code_Vcipher" ]	[]	false	false	false	false	false	let va_wpProof_Vcipher dst src1 src2 va_s0 va_k =	let va_sM, va_f0 = va_lemma_Vcipher (va_code_Vcipher dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.va_Mod_xmm		val va_Mod_xmm : r: Vale.X64.Machine_s.reg_xmm -> Vale.X64.QuickCode.mod_t	let va_Mod_xmm (r:reg_xmm) = Mod_reg (Reg 1 r)	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 65, "end_line": 27, "start_col": 19, "start_line": 27 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t [@va_qattr] unfold let va_Mod_None = Mod_None [@va_qattr] unfold let va_Mod_ok = Mod_ok	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	r: Vale.X64.Machine_s.reg_xmm -> Vale.X64.QuickCode.mod_t	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Machine_s.reg_xmm", "Vale.X64.QuickCode.Mod_reg", "Vale.X64.Machine_s.Reg", "Vale.X64.QuickCode.mod_t" ]	[]	false	false	false	true	false	let va_Mod_xmm (r: reg_xmm) =	Mod_reg (Reg 1 r)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_SHA256_sigma1	val va_lemma_SHA256_sigma1 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src:va_operand_vec_opr -> t:counter -> block:block_w -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_SHA256_sigma1 dst src) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_get_ok va_s0 /\ ((16 <= t && t < size_k_w_256)) /\ (va_eval_vec_opr va_s0 src).hi3 == ws_opaque block (t - 2))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_eval_vec_opr va_sM dst).hi3 == sigma_0_1_partial t block /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_SHA256_sigma1 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src:va_operand_vec_opr -> t:counter -> block:block_w -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_SHA256_sigma1 dst src) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_get_ok va_s0 /\ ((16 <= t && t < size_k_w_256)) /\ (va_eval_vec_opr va_s0 src).hi3 == ws_opaque block (t - 2))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ (va_eval_vec_opr va_sM dst).hi3 == sigma_0_1_partial t block /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 952, "start_col": 0, "start_line": 946 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> t: Vale.SHA.PPC64LE.SHA_helpers.counter -> block: Vale.SHA.PPC64LE.SHA_helpers.block_w -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.SHA.PPC64LE.SHA_helpers.counter", "Vale.SHA.PPC64LE.SHA_helpers.block_w", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "Prims.unit", "Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma1", "Vale.PPC64LE.Decls.va_eval_vec_opr", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Vshasigmaw1", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_SHA256_sigma1" ]	[]	false	false	false	false	false	let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block =	va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM)	false
Hacl.Bignum64.fst	Hacl.Bignum64.add_mod	val add_mod: len:BN.meta_len t_limbs -> BN.bn_add_mod_n_st t_limbs len	val add_mod: len:BN.meta_len t_limbs -> BN.bn_add_mod_n_st t_limbs len	let add_mod len n a b res = (ke len).BE.bn.BN.add_mod_n n a b res	{ "file_name": "code/bignum/Hacl.Bignum64.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 39, "end_line": 30, "start_col": 0, "start_line": 29 }	module Hacl.Bignum64 open FStar.Mul module BN = Hacl.Bignum module BE = Hacl.Bignum.Exponentiation module BR = Hacl.Bignum.ModReduction module AM = Hacl.Bignum.AlmostMontgomery module MA = Hacl.Bignum.MontArithmetic module BI = Hacl.Bignum.ModInv module BM = Hacl.Bignum.Montgomery #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" inline_for_extraction noextract let kam (len:BN.meta_len t_limbs) = AM.mk_runtime_almost_mont #t_limbs len inline_for_extraction noextract let ke (len:BN.meta_len t_limbs) = BE.mk_runtime_exp #t_limbs len let add len a b res = (ke len).BE.bn.BN.add a b res let sub len a b res = (ke len).BE.bn.BN.sub a b res	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "Hacl.Bignum.Montgomery.fsti.checked", "Hacl.Bignum.MontArithmetic.fsti.checked", "Hacl.Bignum.ModReduction.fst.checked", "Hacl.Bignum.ModInv.fst.checked", "Hacl.Bignum.Exponentiation.fsti.checked", "Hacl.Bignum.Convert.fst.checked", "Hacl.Bignum.AlmostMontgomery.fsti.checked", "Hacl.Bignum.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Hacl.Bignum64.fst" }	[ { "abbrev": true, "full_module": "Hacl.Bignum.Montgomery", "short_module": "BM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModInv", "short_module": "BI" }, { "abbrev": true, "full_module": "Hacl.Bignum.AlmostMontgomery", "short_module": "AM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModReduction", "short_module": "BR" }, { "abbrev": true, "full_module": "Hacl.Bignum.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Hacl.Bignum.MontArithmetic", "short_module": "MA" }, { "abbrev": true, "full_module": "Hacl.Bignum.SafeAPI", "short_module": "BS" }, { "abbrev": true, "full_module": "Hacl.Bignum", "short_module": "BN" }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	len: Hacl.Bignum.meta_len Hacl.Bignum64.t_limbs -> Hacl.Bignum.bn_add_mod_n_st Hacl.Bignum64.t_limbs len	Prims.Tot	[ "total" ]	[]	[ "Hacl.Bignum.meta_len", "Hacl.Bignum64.t_limbs", "Hacl.Bignum.Definitions.lbignum", "Hacl.Bignum.__proj__Mkbn__item__add_mod_n", "Hacl.Bignum.Exponentiation.__proj__Mkexp__item__bn", "Hacl.Bignum64.ke", "Prims.unit" ]	[]	false	false	false	false	false	let add_mod len n a b res =	(ke len).BE.bn.BN.add_mod_n n a b res	false
Hacl.Bignum64.fst	Hacl.Bignum64.sub_mod	val sub_mod: len:BN.meta_len t_limbs -> BN.bn_sub_mod_n_st t_limbs len	val sub_mod: len:BN.meta_len t_limbs -> BN.bn_sub_mod_n_st t_limbs len	let sub_mod len n a b res = (ke len).BE.bn.BN.sub_mod_n n a b res	{ "file_name": "code/bignum/Hacl.Bignum64.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 39, "end_line": 33, "start_col": 0, "start_line": 32 }	module Hacl.Bignum64 open FStar.Mul module BN = Hacl.Bignum module BE = Hacl.Bignum.Exponentiation module BR = Hacl.Bignum.ModReduction module AM = Hacl.Bignum.AlmostMontgomery module MA = Hacl.Bignum.MontArithmetic module BI = Hacl.Bignum.ModInv module BM = Hacl.Bignum.Montgomery #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" inline_for_extraction noextract let kam (len:BN.meta_len t_limbs) = AM.mk_runtime_almost_mont #t_limbs len inline_for_extraction noextract let ke (len:BN.meta_len t_limbs) = BE.mk_runtime_exp #t_limbs len let add len a b res = (ke len).BE.bn.BN.add a b res let sub len a b res = (ke len).BE.bn.BN.sub a b res let add_mod len n a b res = (ke len).BE.bn.BN.add_mod_n n a b res	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "Hacl.Bignum.Montgomery.fsti.checked", "Hacl.Bignum.MontArithmetic.fsti.checked", "Hacl.Bignum.ModReduction.fst.checked", "Hacl.Bignum.ModInv.fst.checked", "Hacl.Bignum.Exponentiation.fsti.checked", "Hacl.Bignum.Convert.fst.checked", "Hacl.Bignum.AlmostMontgomery.fsti.checked", "Hacl.Bignum.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Hacl.Bignum64.fst" }	[ { "abbrev": true, "full_module": "Hacl.Bignum.Montgomery", "short_module": "BM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModInv", "short_module": "BI" }, { "abbrev": true, "full_module": "Hacl.Bignum.AlmostMontgomery", "short_module": "AM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModReduction", "short_module": "BR" }, { "abbrev": true, "full_module": "Hacl.Bignum.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Hacl.Bignum.MontArithmetic", "short_module": "MA" }, { "abbrev": true, "full_module": "Hacl.Bignum.SafeAPI", "short_module": "BS" }, { "abbrev": true, "full_module": "Hacl.Bignum", "short_module": "BN" }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	len: Hacl.Bignum.meta_len Hacl.Bignum64.t_limbs -> Hacl.Bignum.bn_sub_mod_n_st Hacl.Bignum64.t_limbs len	Prims.Tot	[ "total" ]	[]	[ "Hacl.Bignum.meta_len", "Hacl.Bignum64.t_limbs", "Hacl.Bignum.Definitions.lbignum", "Hacl.Bignum.__proj__Mkbn__item__sub_mod_n", "Hacl.Bignum.Exponentiation.__proj__Mkexp__item__bn", "Hacl.Bignum64.ke", "Prims.unit" ]	[]	false	false	false	false	false	let sub_mod len n a b res =	(ke len).BE.bn.BN.sub_mod_n n a b res	false
Hacl.Bignum64.fst	Hacl.Bignum64.add	val add: len:BN.meta_len t_limbs -> BN.bn_add_eq_len_st t_limbs len	val add: len:BN.meta_len t_limbs -> BN.bn_add_eq_len_st t_limbs len	let add len a b res = (ke len).BE.bn.BN.add a b res	{ "file_name": "code/bignum/Hacl.Bignum64.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 31, "end_line": 24, "start_col": 0, "start_line": 23 }	module Hacl.Bignum64 open FStar.Mul module BN = Hacl.Bignum module BE = Hacl.Bignum.Exponentiation module BR = Hacl.Bignum.ModReduction module AM = Hacl.Bignum.AlmostMontgomery module MA = Hacl.Bignum.MontArithmetic module BI = Hacl.Bignum.ModInv module BM = Hacl.Bignum.Montgomery #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" inline_for_extraction noextract let kam (len:BN.meta_len t_limbs) = AM.mk_runtime_almost_mont #t_limbs len inline_for_extraction noextract let ke (len:BN.meta_len t_limbs) = BE.mk_runtime_exp #t_limbs len	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "Hacl.Bignum.Montgomery.fsti.checked", "Hacl.Bignum.MontArithmetic.fsti.checked", "Hacl.Bignum.ModReduction.fst.checked", "Hacl.Bignum.ModInv.fst.checked", "Hacl.Bignum.Exponentiation.fsti.checked", "Hacl.Bignum.Convert.fst.checked", "Hacl.Bignum.AlmostMontgomery.fsti.checked", "Hacl.Bignum.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Hacl.Bignum64.fst" }	[ { "abbrev": true, "full_module": "Hacl.Bignum.Montgomery", "short_module": "BM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModInv", "short_module": "BI" }, { "abbrev": true, "full_module": "Hacl.Bignum.AlmostMontgomery", "short_module": "AM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModReduction", "short_module": "BR" }, { "abbrev": true, "full_module": "Hacl.Bignum.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Hacl.Bignum.MontArithmetic", "short_module": "MA" }, { "abbrev": true, "full_module": "Hacl.Bignum.SafeAPI", "short_module": "BS" }, { "abbrev": true, "full_module": "Hacl.Bignum", "short_module": "BN" }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	len: Hacl.Bignum.meta_len Hacl.Bignum64.t_limbs -> Hacl.Bignum.bn_add_eq_len_st Hacl.Bignum64.t_limbs len	Prims.Tot	[ "total" ]	[]	[ "Hacl.Bignum.meta_len", "Hacl.Bignum64.t_limbs", "Hacl.Bignum.Definitions.lbignum", "Hacl.Bignum.__proj__Mkbn__item__add", "Hacl.Bignum.Exponentiation.__proj__Mkexp__item__bn", "Hacl.Bignum64.ke", "Hacl.Spec.Bignum.Base.carry" ]	[]	false	false	false	false	false	let add len a b res =	(ke len).BE.bn.BN.add a b res	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.update_state_mods_norm	val update_state_mods_norm (mods: mods_t) (sM sK: vale_state) : vale_state	val update_state_mods_norm (mods: mods_t) (sM sK: vale_state) : vale_state	let update_state_mods_norm (mods:mods_t) (sM sK:vale_state) : vale_state = norm [iota; zeta; delta_attr [`%qmodattr]; delta_only [`%update_state_mods; `%update_state_mod]] (update_state_mods mods sM sK)	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 129, "end_line": 69, "start_col": 7, "start_line": 68 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t [@va_qattr] unfold let va_Mod_None = Mod_None [@va_qattr] unfold let va_Mod_ok = Mod_ok [@va_qattr] unfold let va_Mod_reg64 (r:reg_64) = Mod_reg (Reg 0 r) [@va_qattr] unfold let va_Mod_xmm (r:reg_xmm) = Mod_reg (Reg 1 r) [@va_qattr] unfold let va_Mod_flags = Mod_flags [@va_qattr] unfold let va_Mod_mem = Mod_mem [@va_qattr] unfold let va_Mod_mem_layout = Mod_mem_layout [@va_qattr] unfold let va_Mod_mem_heaplet (n:heaplet_id) = Mod_mem_heaplet n [@va_qattr] unfold let va_Mod_stack = Mod_stack [@va_qattr] unfold let va_Mod_stackTaint = Mod_stackTaint [@va_qattr "opaque_to_smt"] let mod_eq (x y:mod_t) : Pure bool (requires True) (ensures fun b -> b == (x = y)) = match x with \| Mod_None -> (match y with Mod_None -> true \| _ -> false) \| Mod_ok -> (match y with Mod_ok -> true \| _ -> false) \| Mod_reg rx -> (match y with Mod_reg ry -> rx = ry \| _ -> false) \| Mod_flags -> (match y with Mod_flags -> true \| _ -> false) \| Mod_mem -> (match y with Mod_mem -> true \| _ -> false) \| Mod_mem_layout -> (match y with Mod_mem_layout -> true \| _ -> false) \| Mod_mem_heaplet nx -> (match y with Mod_mem_heaplet ny -> nx = ny \| _ -> false) \| Mod_stack -> (match y with Mod_stack -> true \| _ -> false) \| Mod_stackTaint -> (match y with Mod_stackTaint -> true \| _ -> false) [@va_qattr] let update_state_mod (m:mod_t) (sM sK:vale_state) : vale_state = match m with \| Mod_None -> sK \| Mod_ok -> va_update_ok sM sK \| Mod_reg r -> update_register r sM sK \| Mod_flags -> va_update_flags sM sK \| Mod_mem -> va_update_mem sM sK \| Mod_mem_layout -> va_update_mem_layout sM sK \| Mod_mem_heaplet n -> va_update_mem_heaplet n sM sK \| Mod_stack -> va_update_stack sM sK \| Mod_stackTaint -> va_update_stackTaint sM sK [@va_qattr] let rec update_state_mods (mods:mods_t) (sM sK:vale_state) : vale_state = match mods with \| [] -> sK \| m::mods -> update_state_mod m sM (update_state_mods mods sM sK)	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	mods: Vale.X64.QuickCode.mods_t -> sM: Vale.X64.State.vale_state -> sK: Vale.X64.State.vale_state -> Vale.X64.State.vale_state	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.QuickCode.mods_t", "Vale.X64.State.vale_state", "FStar.Pervasives.norm", "Prims.Cons", "FStar.Pervasives.norm_step", "FStar.Pervasives.iota", "FStar.Pervasives.zeta", "FStar.Pervasives.delta_attr", "Prims.string", "Prims.Nil", "FStar.Pervasives.delta_only", "Vale.X64.QuickCode.update_state_mods" ]	[]	false	false	false	true	false	let update_state_mods_norm (mods: mods_t) (sM sK: vale_state) : vale_state =	norm [iota; zeta; delta_attr [`%qmodattr]; delta_only [`%update_state_mods; `%update_state_mod]] (update_state_mods mods sM sK)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Vcipherlast	val va_wpProof_Vcipherlast : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vcipherlast dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vcipherlast dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Vcipherlast : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vcipherlast dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vcipherlast dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Vcipherlast dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcipherlast (va_code_Vcipherlast dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 1142, "start_col": 0, "start_line": 1135 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma1 (va_code_SHA256_Sigma1 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsbox [@ "opaque_to_smt"] let va_code_Vsbox dst src = (Ins (S.Vsbox dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vsbox dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsbox va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vsbox) (va_code_Vsbox dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsbox dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsbox dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsbox dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsbox (va_code_Vsbox dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- RotWord [@ "opaque_to_smt"] let va_code_RotWord dst src1 src2 = (Ins (S.RotWord dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_RotWord dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_RotWord va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_RotWord) (va_code_RotWord dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.RotWord dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.RotWord dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_RotWord dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_RotWord (va_code_RotWord dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipher [@ "opaque_to_smt"] let va_code_Vcipher dst src1 src2 = (Ins (S.Vcipher dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcipher dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcipher va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcipher) (va_code_Vcipher dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcipher dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcipher dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcipher dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcipher (va_code_Vcipher dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipherlast [@ "opaque_to_smt"] let va_code_Vcipherlast dst src1 src2 = (Ins (S.Vcipherlast dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcipherlast dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcipherlast va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcipherlast) (va_code_Vcipherlast dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcipherlast dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcipherlast dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Vcipherlast", "Vale.PPC64LE.InsVector.va_code_Vcipherlast" ]	[]	false	false	false	false	false	let va_wpProof_Vcipherlast dst src1 src2 va_s0 va_k =	let va_sM, va_f0 = va_lemma_Vcipherlast (va_code_Vcipherlast dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.quickProc_wp	val quickProc_wp (a: Type0) : Type u#1	val quickProc_wp (a: Type0) : Type u#1	let quickProc_wp (a:Type0) : Type u#1 = (s0:vale_state) -> (wp_continue:vale_state -> a -> Type0) -> Type0	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 106, "end_line": 91, "start_col": 0, "start_line": 91 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t [@va_qattr] unfold let va_Mod_None = Mod_None [@va_qattr] unfold let va_Mod_ok = Mod_ok [@va_qattr] unfold let va_Mod_reg64 (r:reg_64) = Mod_reg (Reg 0 r) [@va_qattr] unfold let va_Mod_xmm (r:reg_xmm) = Mod_reg (Reg 1 r) [@va_qattr] unfold let va_Mod_flags = Mod_flags [@va_qattr] unfold let va_Mod_mem = Mod_mem [@va_qattr] unfold let va_Mod_mem_layout = Mod_mem_layout [@va_qattr] unfold let va_Mod_mem_heaplet (n:heaplet_id) = Mod_mem_heaplet n [@va_qattr] unfold let va_Mod_stack = Mod_stack [@va_qattr] unfold let va_Mod_stackTaint = Mod_stackTaint [@va_qattr "opaque_to_smt"] let mod_eq (x y:mod_t) : Pure bool (requires True) (ensures fun b -> b == (x = y)) = match x with \| Mod_None -> (match y with Mod_None -> true \| _ -> false) \| Mod_ok -> (match y with Mod_ok -> true \| _ -> false) \| Mod_reg rx -> (match y with Mod_reg ry -> rx = ry \| _ -> false) \| Mod_flags -> (match y with Mod_flags -> true \| _ -> false) \| Mod_mem -> (match y with Mod_mem -> true \| _ -> false) \| Mod_mem_layout -> (match y with Mod_mem_layout -> true \| _ -> false) \| Mod_mem_heaplet nx -> (match y with Mod_mem_heaplet ny -> nx = ny \| _ -> false) \| Mod_stack -> (match y with Mod_stack -> true \| _ -> false) \| Mod_stackTaint -> (match y with Mod_stackTaint -> true \| _ -> false) [@va_qattr] let update_state_mod (m:mod_t) (sM sK:vale_state) : vale_state = match m with \| Mod_None -> sK \| Mod_ok -> va_update_ok sM sK \| Mod_reg r -> update_register r sM sK \| Mod_flags -> va_update_flags sM sK \| Mod_mem -> va_update_mem sM sK \| Mod_mem_layout -> va_update_mem_layout sM sK \| Mod_mem_heaplet n -> va_update_mem_heaplet n sM sK \| Mod_stack -> va_update_stack sM sK \| Mod_stackTaint -> va_update_stackTaint sM sK [@va_qattr] let rec update_state_mods (mods:mods_t) (sM sK:vale_state) : vale_state = match mods with \| [] -> sK \| m::mods -> update_state_mod m sM (update_state_mods mods sM sK) [@va_qattr] unfold let update_state_mods_norm (mods:mods_t) (sM sK:vale_state) : vale_state = norm [iota; zeta; delta_attr [`%qmodattr]; delta_only [`%update_state_mods; `%update_state_mod]] (update_state_mods mods sM sK) let va_lemma_norm_mods (mods:mods_t) (sM sK:vale_state) : Lemma (ensures update_state_mods mods sM sK == update_state_mods_norm mods sM sK) = () [@va_qattr qmodattr] let va_mod_dst_opr64 (o:operand64) : mod_t = match o with \| OConst n -> Mod_None \| OReg r -> Mod_reg (Reg 0 r) \| OMem _ -> Mod_None // TODO: support destination memory operands \| OStack _ -> Mod_None // TODO: support destination stack operands [@va_qattr qmodattr] let va_mod_reg_opr64 (o:reg_operand) : mod_t = match o with \| OReg r -> Mod_reg (Reg 0 r) [@va_qattr qmodattr] let va_mod_xmm (x:reg_xmm) : mod_t = Mod_reg (Reg 1 x) [@va_qattr qmodattr] let va_mod_heaplet (h:heaplet_id) : mod_t = Mod_mem_heaplet h	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	a: Type0 -> Type	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.State.vale_state" ]	[]	false	false	false	true	true	let quickProc_wp (a: Type0) : Type u#1 =	s0: vale_state -> (wp_continue: vale_state -> a -> Type0) -> Type0	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.va_mod_heaplet	val va_mod_heaplet (h: heaplet_id) : mod_t	val va_mod_heaplet (h: heaplet_id) : mod_t	let va_mod_heaplet (h:heaplet_id) : mod_t = Mod_mem_heaplet h	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 82, "end_line": 89, "start_col": 21, "start_line": 89 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t [@va_qattr] unfold let va_Mod_None = Mod_None [@va_qattr] unfold let va_Mod_ok = Mod_ok [@va_qattr] unfold let va_Mod_reg64 (r:reg_64) = Mod_reg (Reg 0 r) [@va_qattr] unfold let va_Mod_xmm (r:reg_xmm) = Mod_reg (Reg 1 r) [@va_qattr] unfold let va_Mod_flags = Mod_flags [@va_qattr] unfold let va_Mod_mem = Mod_mem [@va_qattr] unfold let va_Mod_mem_layout = Mod_mem_layout [@va_qattr] unfold let va_Mod_mem_heaplet (n:heaplet_id) = Mod_mem_heaplet n [@va_qattr] unfold let va_Mod_stack = Mod_stack [@va_qattr] unfold let va_Mod_stackTaint = Mod_stackTaint [@va_qattr "opaque_to_smt"] let mod_eq (x y:mod_t) : Pure bool (requires True) (ensures fun b -> b == (x = y)) = match x with \| Mod_None -> (match y with Mod_None -> true \| _ -> false) \| Mod_ok -> (match y with Mod_ok -> true \| _ -> false) \| Mod_reg rx -> (match y with Mod_reg ry -> rx = ry \| _ -> false) \| Mod_flags -> (match y with Mod_flags -> true \| _ -> false) \| Mod_mem -> (match y with Mod_mem -> true \| _ -> false) \| Mod_mem_layout -> (match y with Mod_mem_layout -> true \| _ -> false) \| Mod_mem_heaplet nx -> (match y with Mod_mem_heaplet ny -> nx = ny \| _ -> false) \| Mod_stack -> (match y with Mod_stack -> true \| _ -> false) \| Mod_stackTaint -> (match y with Mod_stackTaint -> true \| _ -> false) [@va_qattr] let update_state_mod (m:mod_t) (sM sK:vale_state) : vale_state = match m with \| Mod_None -> sK \| Mod_ok -> va_update_ok sM sK \| Mod_reg r -> update_register r sM sK \| Mod_flags -> va_update_flags sM sK \| Mod_mem -> va_update_mem sM sK \| Mod_mem_layout -> va_update_mem_layout sM sK \| Mod_mem_heaplet n -> va_update_mem_heaplet n sM sK \| Mod_stack -> va_update_stack sM sK \| Mod_stackTaint -> va_update_stackTaint sM sK [@va_qattr] let rec update_state_mods (mods:mods_t) (sM sK:vale_state) : vale_state = match mods with \| [] -> sK \| m::mods -> update_state_mod m sM (update_state_mods mods sM sK) [@va_qattr] unfold let update_state_mods_norm (mods:mods_t) (sM sK:vale_state) : vale_state = norm [iota; zeta; delta_attr [`%qmodattr]; delta_only [`%update_state_mods; `%update_state_mod]] (update_state_mods mods sM sK) let va_lemma_norm_mods (mods:mods_t) (sM sK:vale_state) : Lemma (ensures update_state_mods mods sM sK == update_state_mods_norm mods sM sK) = () [@va_qattr qmodattr] let va_mod_dst_opr64 (o:operand64) : mod_t = match o with \| OConst n -> Mod_None \| OReg r -> Mod_reg (Reg 0 r) \| OMem _ -> Mod_None // TODO: support destination memory operands \| OStack _ -> Mod_None // TODO: support destination stack operands [@va_qattr qmodattr] let va_mod_reg_opr64 (o:reg_operand) : mod_t = match o with \| OReg r -> Mod_reg (Reg 0 r)	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	h: Vale.X64.Decls.heaplet_id -> Vale.X64.QuickCode.mod_t	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Decls.heaplet_id", "Vale.X64.QuickCode.Mod_mem_heaplet", "Vale.X64.QuickCode.mod_t" ]	[]	false	false	false	true	false	let va_mod_heaplet (h: heaplet_id) : mod_t =	Mod_mem_heaplet h	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Vsbox	val va_lemma_Vsbox : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vsbox dst src) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.AES.AES_common_s.sub_word (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src))) (Vale.AES.AES_common_s.sub_word (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src))) (Vale.AES.AES_common_s.sub_word (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src))) (Vale.AES.AES_common_s.sub_word (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src))) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_Vsbox : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Vsbox dst src) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_get_ok va_s0)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.AES.AES_common_s.sub_word (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src))) (Vale.AES.AES_common_s.sub_word (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src))) (Vale.AES.AES_common_s.sub_word (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src))) (Vale.AES.AES_common_s.sub_word (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src))) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_Vsbox va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vsbox) (va_code_Vsbox dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsbox dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsbox dst src)) va_s0 in (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 1044, "start_col": 0, "start_line": 1039 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma1 (va_code_SHA256_Sigma1 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsbox [@ "opaque_to_smt"] let va_code_Vsbox dst src = (Ins (S.Vsbox dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vsbox dst src = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Vsbox", "Prims.unit", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Vsbox" ]	[]	false	false	false	false	false	let va_lemma_Vsbox va_b0 va_s0 dst src =	va_reveal_opaque (`%va_code_Vsbox) (va_code_Vsbox dst src); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Vsbox dst src)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Vsbox dst src)) va_s0 in (va_sM, va_fM)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_SHA256_Sigma1	val va_lemma_SHA256_Sigma1 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src:va_operand_vec_opr -> t:counter -> block:block_w -> hash_orig:hash256 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_SHA256_Sigma1 dst src) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_get_ok va_s0 /\ t < size_k_w_256 /\ Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src) == Vale.SHA.PPC64LE.SHA_helpers.word_to_nat32 (FStar.Seq.Base.index #Vale.SHA.PPC64LE.SHA_helpers.word (Vale.SHA.PPC64LE.SHA_helpers.repeat_range_vale t block hash_orig) 4))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_sM dst) == Vale.SHA.PPC64LE.SHA_helpers.sigma_1_1_partial t block hash_orig /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_SHA256_Sigma1 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src:va_operand_vec_opr -> t:counter -> block:block_w -> hash_orig:hash256 -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_SHA256_Sigma1 dst src) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_get_ok va_s0 /\ t < size_k_w_256 /\ Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src) == Vale.SHA.PPC64LE.SHA_helpers.word_to_nat32 (FStar.Seq.Base.index #Vale.SHA.PPC64LE.SHA_helpers.word (Vale.SHA.PPC64LE.SHA_helpers.repeat_range_vale t block hash_orig) 4))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_sM dst) == Vale.SHA.PPC64LE.SHA_helpers.sigma_1_1_partial t block hash_orig /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 1014, "start_col": 0, "start_line": 1008 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> t: Vale.SHA.PPC64LE.SHA_helpers.counter -> block: Vale.SHA.PPC64LE.SHA_helpers.block_w -> hash_orig: Vale.SHA.PPC64LE.SHA_helpers.hash256 -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.SHA.PPC64LE.SHA_helpers.counter", "Vale.SHA.PPC64LE.SHA_helpers.block_w", "Vale.SHA.PPC64LE.SHA_helpers.hash256", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "Prims.unit", "Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3", "Vale.PPC64LE.Decls.va_eval_vec_opr", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Vshasigmaw3", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_SHA256_Sigma1" ]	[]	false	false	false	false	false	let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig =	va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM)	false
Hacl.Bignum64.fst	Hacl.Bignum64.bn_slow_precomp	val bn_slow_precomp (len: BN.meta_len t_limbs) : BR.bn_mod_slow_precomp_st t_limbs len	val bn_slow_precomp (len: BN.meta_len t_limbs) : BR.bn_mod_slow_precomp_st t_limbs len	let bn_slow_precomp (len:BN.meta_len t_limbs) : BR.bn_mod_slow_precomp_st t_limbs len = BR.bn_mod_slow_precomp (kam len)	{ "file_name": "code/bignum/Hacl.Bignum64.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 34, "end_line": 43, "start_col": 0, "start_line": 42 }	module Hacl.Bignum64 open FStar.Mul module BN = Hacl.Bignum module BE = Hacl.Bignum.Exponentiation module BR = Hacl.Bignum.ModReduction module AM = Hacl.Bignum.AlmostMontgomery module MA = Hacl.Bignum.MontArithmetic module BI = Hacl.Bignum.ModInv module BM = Hacl.Bignum.Montgomery #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" inline_for_extraction noextract let kam (len:BN.meta_len t_limbs) = AM.mk_runtime_almost_mont #t_limbs len inline_for_extraction noextract let ke (len:BN.meta_len t_limbs) = BE.mk_runtime_exp #t_limbs len let add len a b res = (ke len).BE.bn.BN.add a b res let sub len a b res = (ke len).BE.bn.BN.sub a b res let add_mod len n a b res = (ke len).BE.bn.BN.add_mod_n n a b res let sub_mod len n a b res = (ke len).BE.bn.BN.sub_mod_n n a b res let mul len a b res = (ke len).BE.bn.BN.mul a b res let sqr len a res = (ke len).BE.bn.BN.sqr a res	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "Hacl.Bignum.Montgomery.fsti.checked", "Hacl.Bignum.MontArithmetic.fsti.checked", "Hacl.Bignum.ModReduction.fst.checked", "Hacl.Bignum.ModInv.fst.checked", "Hacl.Bignum.Exponentiation.fsti.checked", "Hacl.Bignum.Convert.fst.checked", "Hacl.Bignum.AlmostMontgomery.fsti.checked", "Hacl.Bignum.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Hacl.Bignum64.fst" }	[ { "abbrev": true, "full_module": "Hacl.Bignum.Montgomery", "short_module": "BM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModInv", "short_module": "BI" }, { "abbrev": true, "full_module": "Hacl.Bignum.MontArithmetic", "short_module": "MA" }, { "abbrev": true, "full_module": "Hacl.Bignum.AlmostMontgomery", "short_module": "AM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModReduction", "short_module": "BR" }, { "abbrev": true, "full_module": "Hacl.Bignum.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Hacl.Bignum", "short_module": "BN" }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": true, "full_module": "Hacl.Bignum.MontArithmetic", "short_module": "MA" }, { "abbrev": true, "full_module": "Hacl.Bignum.SafeAPI", "short_module": "BS" }, { "abbrev": true, "full_module": "Hacl.Bignum", "short_module": "BN" }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	len: Hacl.Bignum.meta_len Hacl.Bignum64.t_limbs -> Hacl.Bignum.ModReduction.bn_mod_slow_precomp_st Hacl.Bignum64.t_limbs len	Prims.Tot	[ "total" ]	[]	[ "Hacl.Bignum.meta_len", "Hacl.Bignum64.t_limbs", "Hacl.Bignum.ModReduction.bn_mod_slow_precomp", "Hacl.Bignum64.kam", "Hacl.Bignum.ModReduction.bn_mod_slow_precomp_st" ]	[]	false	false	false	false	false	let bn_slow_precomp (len: BN.meta_len t_limbs) : BR.bn_mod_slow_precomp_st t_limbs len =	BR.bn_mod_slow_precomp (kam len)	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.t_require		val t_require : s0: Vale.X64.Decls.va_state -> Vale.Def.Prop_s.prop0	let t_require (s0:va_state) = state_inv s0	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 42, "end_line": 105, "start_col": 0, "start_line": 105 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t [@va_qattr] unfold let va_Mod_None = Mod_None [@va_qattr] unfold let va_Mod_ok = Mod_ok [@va_qattr] unfold let va_Mod_reg64 (r:reg_64) = Mod_reg (Reg 0 r) [@va_qattr] unfold let va_Mod_xmm (r:reg_xmm) = Mod_reg (Reg 1 r) [@va_qattr] unfold let va_Mod_flags = Mod_flags [@va_qattr] unfold let va_Mod_mem = Mod_mem [@va_qattr] unfold let va_Mod_mem_layout = Mod_mem_layout [@va_qattr] unfold let va_Mod_mem_heaplet (n:heaplet_id) = Mod_mem_heaplet n [@va_qattr] unfold let va_Mod_stack = Mod_stack [@va_qattr] unfold let va_Mod_stackTaint = Mod_stackTaint [@va_qattr "opaque_to_smt"] let mod_eq (x y:mod_t) : Pure bool (requires True) (ensures fun b -> b == (x = y)) = match x with \| Mod_None -> (match y with Mod_None -> true \| _ -> false) \| Mod_ok -> (match y with Mod_ok -> true \| _ -> false) \| Mod_reg rx -> (match y with Mod_reg ry -> rx = ry \| _ -> false) \| Mod_flags -> (match y with Mod_flags -> true \| _ -> false) \| Mod_mem -> (match y with Mod_mem -> true \| _ -> false) \| Mod_mem_layout -> (match y with Mod_mem_layout -> true \| _ -> false) \| Mod_mem_heaplet nx -> (match y with Mod_mem_heaplet ny -> nx = ny \| _ -> false) \| Mod_stack -> (match y with Mod_stack -> true \| _ -> false) \| Mod_stackTaint -> (match y with Mod_stackTaint -> true \| _ -> false) [@va_qattr] let update_state_mod (m:mod_t) (sM sK:vale_state) : vale_state = match m with \| Mod_None -> sK \| Mod_ok -> va_update_ok sM sK \| Mod_reg r -> update_register r sM sK \| Mod_flags -> va_update_flags sM sK \| Mod_mem -> va_update_mem sM sK \| Mod_mem_layout -> va_update_mem_layout sM sK \| Mod_mem_heaplet n -> va_update_mem_heaplet n sM sK \| Mod_stack -> va_update_stack sM sK \| Mod_stackTaint -> va_update_stackTaint sM sK [@va_qattr] let rec update_state_mods (mods:mods_t) (sM sK:vale_state) : vale_state = match mods with \| [] -> sK \| m::mods -> update_state_mod m sM (update_state_mods mods sM sK) [@va_qattr] unfold let update_state_mods_norm (mods:mods_t) (sM sK:vale_state) : vale_state = norm [iota; zeta; delta_attr [`%qmodattr]; delta_only [`%update_state_mods; `%update_state_mod]] (update_state_mods mods sM sK) let va_lemma_norm_mods (mods:mods_t) (sM sK:vale_state) : Lemma (ensures update_state_mods mods sM sK == update_state_mods_norm mods sM sK) = () [@va_qattr qmodattr] let va_mod_dst_opr64 (o:operand64) : mod_t = match o with \| OConst n -> Mod_None \| OReg r -> Mod_reg (Reg 0 r) \| OMem _ -> Mod_None // TODO: support destination memory operands \| OStack _ -> Mod_None // TODO: support destination stack operands [@va_qattr qmodattr] let va_mod_reg_opr64 (o:reg_operand) : mod_t = match o with \| OReg r -> Mod_reg (Reg 0 r) [@va_qattr qmodattr] let va_mod_xmm (x:reg_xmm) : mod_t = Mod_reg (Reg 1 x) [@va_qattr qmodattr] let va_mod_heaplet (h:heaplet_id) : mod_t = Mod_mem_heaplet h let quickProc_wp (a:Type0) : Type u#1 = (s0:vale_state) -> (wp_continue:vale_state -> a -> Type0) -> Type0 let k_true (#a:Type0) (_:vale_state) (_:a) = True let t_monotone (#a:Type0) (c:va_code) (wp:quickProc_wp a) : Type = s0:vale_state -> k1:(vale_state -> a -> Type0) -> k2:(vale_state -> a -> Type0) -> Lemma (requires (forall (s:vale_state) (g:a). k1 s g ==> k2 s g)) (ensures wp s0 k1 ==> wp s0 k2) let t_compute (#a:Type0) (c:va_code) (wp:quickProc_wp a) : Type = s0:vale_state -> Ghost (vale_state & va_fuel & a) (requires wp s0 k_true) (ensures fun _ -> True)	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	s0: Vale.X64.Decls.va_state -> Vale.Def.Prop_s.prop0	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Decls.va_state", "Vale.X64.Decls.state_inv", "Vale.Def.Prop_s.prop0" ]	[]	false	false	false	true	false	let t_require (s0: va_state) =	state_inv s0	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.va_QProc		val va_QProc : c: Vale.X64.Machine_s.precode Vale.X64.Decls.ins Vale.X64.Decls.ocmp -> mods: Prims.list Vale.X64.QuickCode.mod_t -> wp: Vale.X64.QuickCode.quickProc_wp _ -> proof: Vale.X64.QuickCode.t_proof c mods wp -> Vale.X64.QuickCode.quickCode _ c	let va_QProc = QProc	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 27, "end_line": 130, "start_col": 7, "start_line": 130 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t [@va_qattr] unfold let va_Mod_None = Mod_None [@va_qattr] unfold let va_Mod_ok = Mod_ok [@va_qattr] unfold let va_Mod_reg64 (r:reg_64) = Mod_reg (Reg 0 r) [@va_qattr] unfold let va_Mod_xmm (r:reg_xmm) = Mod_reg (Reg 1 r) [@va_qattr] unfold let va_Mod_flags = Mod_flags [@va_qattr] unfold let va_Mod_mem = Mod_mem [@va_qattr] unfold let va_Mod_mem_layout = Mod_mem_layout [@va_qattr] unfold let va_Mod_mem_heaplet (n:heaplet_id) = Mod_mem_heaplet n [@va_qattr] unfold let va_Mod_stack = Mod_stack [@va_qattr] unfold let va_Mod_stackTaint = Mod_stackTaint [@va_qattr "opaque_to_smt"] let mod_eq (x y:mod_t) : Pure bool (requires True) (ensures fun b -> b == (x = y)) = match x with \| Mod_None -> (match y with Mod_None -> true \| _ -> false) \| Mod_ok -> (match y with Mod_ok -> true \| _ -> false) \| Mod_reg rx -> (match y with Mod_reg ry -> rx = ry \| _ -> false) \| Mod_flags -> (match y with Mod_flags -> true \| _ -> false) \| Mod_mem -> (match y with Mod_mem -> true \| _ -> false) \| Mod_mem_layout -> (match y with Mod_mem_layout -> true \| _ -> false) \| Mod_mem_heaplet nx -> (match y with Mod_mem_heaplet ny -> nx = ny \| _ -> false) \| Mod_stack -> (match y with Mod_stack -> true \| _ -> false) \| Mod_stackTaint -> (match y with Mod_stackTaint -> true \| _ -> false) [@va_qattr] let update_state_mod (m:mod_t) (sM sK:vale_state) : vale_state = match m with \| Mod_None -> sK \| Mod_ok -> va_update_ok sM sK \| Mod_reg r -> update_register r sM sK \| Mod_flags -> va_update_flags sM sK \| Mod_mem -> va_update_mem sM sK \| Mod_mem_layout -> va_update_mem_layout sM sK \| Mod_mem_heaplet n -> va_update_mem_heaplet n sM sK \| Mod_stack -> va_update_stack sM sK \| Mod_stackTaint -> va_update_stackTaint sM sK [@va_qattr] let rec update_state_mods (mods:mods_t) (sM sK:vale_state) : vale_state = match mods with \| [] -> sK \| m::mods -> update_state_mod m sM (update_state_mods mods sM sK) [@va_qattr] unfold let update_state_mods_norm (mods:mods_t) (sM sK:vale_state) : vale_state = norm [iota; zeta; delta_attr [`%qmodattr]; delta_only [`%update_state_mods; `%update_state_mod]] (update_state_mods mods sM sK) let va_lemma_norm_mods (mods:mods_t) (sM sK:vale_state) : Lemma (ensures update_state_mods mods sM sK == update_state_mods_norm mods sM sK) = () [@va_qattr qmodattr] let va_mod_dst_opr64 (o:operand64) : mod_t = match o with \| OConst n -> Mod_None \| OReg r -> Mod_reg (Reg 0 r) \| OMem _ -> Mod_None // TODO: support destination memory operands \| OStack _ -> Mod_None // TODO: support destination stack operands [@va_qattr qmodattr] let va_mod_reg_opr64 (o:reg_operand) : mod_t = match o with \| OReg r -> Mod_reg (Reg 0 r) [@va_qattr qmodattr] let va_mod_xmm (x:reg_xmm) : mod_t = Mod_reg (Reg 1 x) [@va_qattr qmodattr] let va_mod_heaplet (h:heaplet_id) : mod_t = Mod_mem_heaplet h let quickProc_wp (a:Type0) : Type u#1 = (s0:vale_state) -> (wp_continue:vale_state -> a -> Type0) -> Type0 let k_true (#a:Type0) (_:vale_state) (_:a) = True let t_monotone (#a:Type0) (c:va_code) (wp:quickProc_wp a) : Type = s0:vale_state -> k1:(vale_state -> a -> Type0) -> k2:(vale_state -> a -> Type0) -> Lemma (requires (forall (s:vale_state) (g:a). k1 s g ==> k2 s g)) (ensures wp s0 k1 ==> wp s0 k2) let t_compute (#a:Type0) (c:va_code) (wp:quickProc_wp a) : Type = s0:vale_state -> Ghost (vale_state & va_fuel & a) (requires wp s0 k_true) (ensures fun _ -> True) let t_require (s0:va_state) = state_inv s0 unfold let va_t_require = t_require let va_t_ensure (#a:Type0) (c:va_code) (mods:mods_t) (s0:vale_state) (k:(vale_state -> a -> Type0)) = fun (sM, f0, g) -> eval_code c s0 f0 sM /\ update_state_mods mods sM s0 == sM /\ state_inv sM /\ k sM g let t_proof (#a:Type0) (c:va_code) (mods:mods_t) (wp:quickProc_wp a) : Type = s0:vale_state -> k:(vale_state -> a -> Type0) -> Ghost (vale_state & va_fuel & a) (requires t_require s0 /\ wp s0 k) (ensures va_t_ensure c mods s0 k) // Code that returns a ghost value of type a [@va_qattr] noeq type quickCode (a:Type0) : va_code -> Type = \| QProc: c:va_code -> mods:mods_t -> wp:quickProc_wp a -> proof:t_proof c mods wp -> quickCode a c [@va_qattr] unfold let va_quickCode = quickCode	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	c: Vale.X64.Machine_s.precode Vale.X64.Decls.ins Vale.X64.Decls.ocmp -> mods: Prims.list Vale.X64.QuickCode.mod_t -> wp: Vale.X64.QuickCode.quickProc_wp _ -> proof: Vale.X64.QuickCode.t_proof c mods wp -> Vale.X64.QuickCode.quickCode _ c	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.QuickCode.QProc", "Vale.X64.Machine_s.precode", "Vale.X64.Decls.ins", "Vale.X64.Decls.ocmp", "Prims.list", "Vale.X64.QuickCode.mod_t", "Vale.X64.QuickCode.quickProc_wp", "Vale.X64.QuickCode.t_proof", "Vale.X64.QuickCode.quickCode" ]	[]	false	false	false	false	false	let va_QProc =	QProc	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.k_true		val k_true : _: Vale.X64.State.vale_state -> _: a -> Prims.logical	let k_true (#a:Type0) (_:vale_state) (_:a) = True	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 49, "end_line": 93, "start_col": 0, "start_line": 93 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t [@va_qattr] unfold let va_Mod_None = Mod_None [@va_qattr] unfold let va_Mod_ok = Mod_ok [@va_qattr] unfold let va_Mod_reg64 (r:reg_64) = Mod_reg (Reg 0 r) [@va_qattr] unfold let va_Mod_xmm (r:reg_xmm) = Mod_reg (Reg 1 r) [@va_qattr] unfold let va_Mod_flags = Mod_flags [@va_qattr] unfold let va_Mod_mem = Mod_mem [@va_qattr] unfold let va_Mod_mem_layout = Mod_mem_layout [@va_qattr] unfold let va_Mod_mem_heaplet (n:heaplet_id) = Mod_mem_heaplet n [@va_qattr] unfold let va_Mod_stack = Mod_stack [@va_qattr] unfold let va_Mod_stackTaint = Mod_stackTaint [@va_qattr "opaque_to_smt"] let mod_eq (x y:mod_t) : Pure bool (requires True) (ensures fun b -> b == (x = y)) = match x with \| Mod_None -> (match y with Mod_None -> true \| _ -> false) \| Mod_ok -> (match y with Mod_ok -> true \| _ -> false) \| Mod_reg rx -> (match y with Mod_reg ry -> rx = ry \| _ -> false) \| Mod_flags -> (match y with Mod_flags -> true \| _ -> false) \| Mod_mem -> (match y with Mod_mem -> true \| _ -> false) \| Mod_mem_layout -> (match y with Mod_mem_layout -> true \| _ -> false) \| Mod_mem_heaplet nx -> (match y with Mod_mem_heaplet ny -> nx = ny \| _ -> false) \| Mod_stack -> (match y with Mod_stack -> true \| _ -> false) \| Mod_stackTaint -> (match y with Mod_stackTaint -> true \| _ -> false) [@va_qattr] let update_state_mod (m:mod_t) (sM sK:vale_state) : vale_state = match m with \| Mod_None -> sK \| Mod_ok -> va_update_ok sM sK \| Mod_reg r -> update_register r sM sK \| Mod_flags -> va_update_flags sM sK \| Mod_mem -> va_update_mem sM sK \| Mod_mem_layout -> va_update_mem_layout sM sK \| Mod_mem_heaplet n -> va_update_mem_heaplet n sM sK \| Mod_stack -> va_update_stack sM sK \| Mod_stackTaint -> va_update_stackTaint sM sK [@va_qattr] let rec update_state_mods (mods:mods_t) (sM sK:vale_state) : vale_state = match mods with \| [] -> sK \| m::mods -> update_state_mod m sM (update_state_mods mods sM sK) [@va_qattr] unfold let update_state_mods_norm (mods:mods_t) (sM sK:vale_state) : vale_state = norm [iota; zeta; delta_attr [`%qmodattr]; delta_only [`%update_state_mods; `%update_state_mod]] (update_state_mods mods sM sK) let va_lemma_norm_mods (mods:mods_t) (sM sK:vale_state) : Lemma (ensures update_state_mods mods sM sK == update_state_mods_norm mods sM sK) = () [@va_qattr qmodattr] let va_mod_dst_opr64 (o:operand64) : mod_t = match o with \| OConst n -> Mod_None \| OReg r -> Mod_reg (Reg 0 r) \| OMem _ -> Mod_None // TODO: support destination memory operands \| OStack _ -> Mod_None // TODO: support destination stack operands [@va_qattr qmodattr] let va_mod_reg_opr64 (o:reg_operand) : mod_t = match o with \| OReg r -> Mod_reg (Reg 0 r) [@va_qattr qmodattr] let va_mod_xmm (x:reg_xmm) : mod_t = Mod_reg (Reg 1 x) [@va_qattr qmodattr] let va_mod_heaplet (h:heaplet_id) : mod_t = Mod_mem_heaplet h let quickProc_wp (a:Type0) : Type u#1 = (s0:vale_state) -> (wp_continue:vale_state -> a -> Type0) -> Type0	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	_: Vale.X64.State.vale_state -> _: a -> Prims.logical	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.State.vale_state", "Prims.l_True", "Prims.logical" ]	[]	false	false	false	true	true	let k_true (#a: Type0) (_: vale_state) (_: a) =	True	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.va_t_require		val va_t_require : s0: Vale.X64.Decls.va_state -> Vale.Def.Prop_s.prop0	let va_t_require = t_require	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 35, "end_line": 106, "start_col": 7, "start_line": 106 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t [@va_qattr] unfold let va_Mod_None = Mod_None [@va_qattr] unfold let va_Mod_ok = Mod_ok [@va_qattr] unfold let va_Mod_reg64 (r:reg_64) = Mod_reg (Reg 0 r) [@va_qattr] unfold let va_Mod_xmm (r:reg_xmm) = Mod_reg (Reg 1 r) [@va_qattr] unfold let va_Mod_flags = Mod_flags [@va_qattr] unfold let va_Mod_mem = Mod_mem [@va_qattr] unfold let va_Mod_mem_layout = Mod_mem_layout [@va_qattr] unfold let va_Mod_mem_heaplet (n:heaplet_id) = Mod_mem_heaplet n [@va_qattr] unfold let va_Mod_stack = Mod_stack [@va_qattr] unfold let va_Mod_stackTaint = Mod_stackTaint [@va_qattr "opaque_to_smt"] let mod_eq (x y:mod_t) : Pure bool (requires True) (ensures fun b -> b == (x = y)) = match x with \| Mod_None -> (match y with Mod_None -> true \| _ -> false) \| Mod_ok -> (match y with Mod_ok -> true \| _ -> false) \| Mod_reg rx -> (match y with Mod_reg ry -> rx = ry \| _ -> false) \| Mod_flags -> (match y with Mod_flags -> true \| _ -> false) \| Mod_mem -> (match y with Mod_mem -> true \| _ -> false) \| Mod_mem_layout -> (match y with Mod_mem_layout -> true \| _ -> false) \| Mod_mem_heaplet nx -> (match y with Mod_mem_heaplet ny -> nx = ny \| _ -> false) \| Mod_stack -> (match y with Mod_stack -> true \| _ -> false) \| Mod_stackTaint -> (match y with Mod_stackTaint -> true \| _ -> false) [@va_qattr] let update_state_mod (m:mod_t) (sM sK:vale_state) : vale_state = match m with \| Mod_None -> sK \| Mod_ok -> va_update_ok sM sK \| Mod_reg r -> update_register r sM sK \| Mod_flags -> va_update_flags sM sK \| Mod_mem -> va_update_mem sM sK \| Mod_mem_layout -> va_update_mem_layout sM sK \| Mod_mem_heaplet n -> va_update_mem_heaplet n sM sK \| Mod_stack -> va_update_stack sM sK \| Mod_stackTaint -> va_update_stackTaint sM sK [@va_qattr] let rec update_state_mods (mods:mods_t) (sM sK:vale_state) : vale_state = match mods with \| [] -> sK \| m::mods -> update_state_mod m sM (update_state_mods mods sM sK) [@va_qattr] unfold let update_state_mods_norm (mods:mods_t) (sM sK:vale_state) : vale_state = norm [iota; zeta; delta_attr [`%qmodattr]; delta_only [`%update_state_mods; `%update_state_mod]] (update_state_mods mods sM sK) let va_lemma_norm_mods (mods:mods_t) (sM sK:vale_state) : Lemma (ensures update_state_mods mods sM sK == update_state_mods_norm mods sM sK) = () [@va_qattr qmodattr] let va_mod_dst_opr64 (o:operand64) : mod_t = match o with \| OConst n -> Mod_None \| OReg r -> Mod_reg (Reg 0 r) \| OMem _ -> Mod_None // TODO: support destination memory operands \| OStack _ -> Mod_None // TODO: support destination stack operands [@va_qattr qmodattr] let va_mod_reg_opr64 (o:reg_operand) : mod_t = match o with \| OReg r -> Mod_reg (Reg 0 r) [@va_qattr qmodattr] let va_mod_xmm (x:reg_xmm) : mod_t = Mod_reg (Reg 1 x) [@va_qattr qmodattr] let va_mod_heaplet (h:heaplet_id) : mod_t = Mod_mem_heaplet h let quickProc_wp (a:Type0) : Type u#1 = (s0:vale_state) -> (wp_continue:vale_state -> a -> Type0) -> Type0 let k_true (#a:Type0) (_:vale_state) (_:a) = True let t_monotone (#a:Type0) (c:va_code) (wp:quickProc_wp a) : Type = s0:vale_state -> k1:(vale_state -> a -> Type0) -> k2:(vale_state -> a -> Type0) -> Lemma (requires (forall (s:vale_state) (g:a). k1 s g ==> k2 s g)) (ensures wp s0 k1 ==> wp s0 k2) let t_compute (#a:Type0) (c:va_code) (wp:quickProc_wp a) : Type = s0:vale_state -> Ghost (vale_state & va_fuel & a) (requires wp s0 k_true) (ensures fun _ -> True)	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	s0: Vale.X64.Decls.va_state -> Vale.Def.Prop_s.prop0	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.QuickCode.t_require" ]	[]	false	false	false	true	false	let va_t_require =	t_require	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Vncipher	val va_wpProof_Vncipher : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vncipher dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vncipher dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Vncipher : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vncipher dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vncipher dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Vncipher dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vncipher (va_code_Vncipher dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 1171, "start_col": 0, "start_line": 1165 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma1 (va_code_SHA256_Sigma1 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsbox [@ "opaque_to_smt"] let va_code_Vsbox dst src = (Ins (S.Vsbox dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vsbox dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsbox va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vsbox) (va_code_Vsbox dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsbox dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsbox dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsbox dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsbox (va_code_Vsbox dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- RotWord [@ "opaque_to_smt"] let va_code_RotWord dst src1 src2 = (Ins (S.RotWord dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_RotWord dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_RotWord va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_RotWord) (va_code_RotWord dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.RotWord dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.RotWord dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_RotWord dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_RotWord (va_code_RotWord dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipher [@ "opaque_to_smt"] let va_code_Vcipher dst src1 src2 = (Ins (S.Vcipher dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcipher dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcipher va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcipher) (va_code_Vcipher dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcipher dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcipher dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcipher dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcipher (va_code_Vcipher dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipherlast [@ "opaque_to_smt"] let va_code_Vcipherlast dst src1 src2 = (Ins (S.Vcipherlast dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcipherlast dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcipherlast va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcipherlast) (va_code_Vcipherlast dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcipherlast dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcipherlast dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcipherlast dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcipherlast (va_code_Vcipherlast dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vncipher [@ "opaque_to_smt"] let va_code_Vncipher dst src1 src2 = (Ins (S.Vncipher dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vncipher dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vncipher va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vncipher) (va_code_Vncipher dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vncipher dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vncipher dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Vncipher", "Vale.PPC64LE.InsVector.va_code_Vncipher" ]	[]	false	false	false	false	false	let va_wpProof_Vncipher dst src1 src2 va_s0 va_k =	let va_sM, va_f0 = va_lemma_Vncipher (va_code_Vncipher dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_Store128_byte16_buffer_index	val va_lemma_Store128_byte16_buffer_index : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 /\ va_is_dst_heaplet h va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_is_src_reg_opr base va_s0 /\ va_is_src_reg_opr offset va_s0 /\ va_get_ok va_s0 /\ offset =!= 0 /\ Vale.PPC64LE.Decls.valid_dst_addr #Vale.PPC64LE.Memory.vuint128 (va_eval_heaplet va_s0 h) b index /\ Vale.PPC64LE.Memory.valid_layout_buffer #Vale.PPC64LE.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.PPC64LE.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr va_s0 base + va_eval_reg_opr va_s0 offset == Vale.PPC64LE.Memory.buffer_addr #Vale.PPC64LE.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_heaplet va_sM h == buffer128_write b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_s0 src)) (va_eval_heaplet va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))))	val va_lemma_Store128_byte16_buffer_index : va_b0:va_code -> va_s0:va_state -> h:va_operand_heaplet -> src:va_operand_vec_opr -> base:va_operand_reg_opr -> offset:va_operand_reg_opr -> t:taint -> b:buffer128 -> index:int -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 /\ va_is_dst_heaplet h va_s0 /\ va_is_src_vec_opr src va_s0 /\ va_is_src_reg_opr base va_s0 /\ va_is_src_reg_opr offset va_s0 /\ va_get_ok va_s0 /\ offset =!= 0 /\ Vale.PPC64LE.Decls.valid_dst_addr #Vale.PPC64LE.Memory.vuint128 (va_eval_heaplet va_s0 h) b index /\ Vale.PPC64LE.Memory.valid_layout_buffer #Vale.PPC64LE.Memory.vuint128 b (va_get_mem_layout va_s0) (va_eval_heaplet va_s0 h) true /\ Vale.PPC64LE.Memory.valid_taint_buf128 b (va_eval_heaplet va_s0 h) ((va_get_mem_layout va_s0).vl_taint) t /\ va_eval_reg_opr va_s0 base + va_eval_reg_opr va_s0 offset == Vale.PPC64LE.Memory.buffer_addr #Vale.PPC64LE.Memory.vuint128 b (va_eval_heaplet va_s0 h) + 16 `op_Multiply` index)) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_heaplet va_sM h == buffer128_write b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_s0 src)) (va_eval_heaplet va_s0 h) /\ va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))))	let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 889, "start_col": 0, "start_line": 880 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> h: Vale.PPC64LE.Decls.va_operand_heaplet -> src: Vale.PPC64LE.Decls.va_operand_vec_opr -> base: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Vale.PPC64LE.Decls.va_operand_reg_opr -> t: Vale.Arch.HeapTypes_s.taint -> b: Vale.PPC64LE.Memory.buffer128 -> index: Prims.int -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_heaplet", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_operand_reg_opr", "Vale.Arch.HeapTypes_s.taint", "Vale.PPC64LE.Memory.buffer128", "Prims.int", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "Prims.unit", "Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full", "Vale.Def.Types_s.reverse_bytes_quad32", "Vale.PPC64LE.Decls.va_eval_vec_opr", "Vale.PPC64LE.Decls.from_heap_impl", "Vale.PPC64LE.Machine_s.__proj__Mkstate__item__ms_heap", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.Store128Byte16Index", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_Store128_byte16_buffer_index" ]	[]	false	false	false	false	false	let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index =	va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM)	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.va_t_ensure		val va_t_ensure : c: Vale.X64.Decls.va_code -> mods: Vale.X64.QuickCode.mods_t -> s0: Vale.X64.State.vale_state -> k: (_: Vale.X64.State.vale_state -> _: a -> Type0) -> _: ((Vale.X64.State.vale_state * Vale.X64.Decls.va_fuel) * a) -> Prims.logical	let va_t_ensure (#a:Type0) (c:va_code) (mods:mods_t) (s0:vale_state) (k:(vale_state -> a -> Type0)) = fun (sM, f0, g) -> eval_code c s0 f0 sM /\ update_state_mods mods sM s0 == sM /\ state_inv sM /\ k sM g	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 105, "end_line": 109, "start_col": 0, "start_line": 108 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t [@va_qattr] unfold let va_Mod_None = Mod_None [@va_qattr] unfold let va_Mod_ok = Mod_ok [@va_qattr] unfold let va_Mod_reg64 (r:reg_64) = Mod_reg (Reg 0 r) [@va_qattr] unfold let va_Mod_xmm (r:reg_xmm) = Mod_reg (Reg 1 r) [@va_qattr] unfold let va_Mod_flags = Mod_flags [@va_qattr] unfold let va_Mod_mem = Mod_mem [@va_qattr] unfold let va_Mod_mem_layout = Mod_mem_layout [@va_qattr] unfold let va_Mod_mem_heaplet (n:heaplet_id) = Mod_mem_heaplet n [@va_qattr] unfold let va_Mod_stack = Mod_stack [@va_qattr] unfold let va_Mod_stackTaint = Mod_stackTaint [@va_qattr "opaque_to_smt"] let mod_eq (x y:mod_t) : Pure bool (requires True) (ensures fun b -> b == (x = y)) = match x with \| Mod_None -> (match y with Mod_None -> true \| _ -> false) \| Mod_ok -> (match y with Mod_ok -> true \| _ -> false) \| Mod_reg rx -> (match y with Mod_reg ry -> rx = ry \| _ -> false) \| Mod_flags -> (match y with Mod_flags -> true \| _ -> false) \| Mod_mem -> (match y with Mod_mem -> true \| _ -> false) \| Mod_mem_layout -> (match y with Mod_mem_layout -> true \| _ -> false) \| Mod_mem_heaplet nx -> (match y with Mod_mem_heaplet ny -> nx = ny \| _ -> false) \| Mod_stack -> (match y with Mod_stack -> true \| _ -> false) \| Mod_stackTaint -> (match y with Mod_stackTaint -> true \| _ -> false) [@va_qattr] let update_state_mod (m:mod_t) (sM sK:vale_state) : vale_state = match m with \| Mod_None -> sK \| Mod_ok -> va_update_ok sM sK \| Mod_reg r -> update_register r sM sK \| Mod_flags -> va_update_flags sM sK \| Mod_mem -> va_update_mem sM sK \| Mod_mem_layout -> va_update_mem_layout sM sK \| Mod_mem_heaplet n -> va_update_mem_heaplet n sM sK \| Mod_stack -> va_update_stack sM sK \| Mod_stackTaint -> va_update_stackTaint sM sK [@va_qattr] let rec update_state_mods (mods:mods_t) (sM sK:vale_state) : vale_state = match mods with \| [] -> sK \| m::mods -> update_state_mod m sM (update_state_mods mods sM sK) [@va_qattr] unfold let update_state_mods_norm (mods:mods_t) (sM sK:vale_state) : vale_state = norm [iota; zeta; delta_attr [`%qmodattr]; delta_only [`%update_state_mods; `%update_state_mod]] (update_state_mods mods sM sK) let va_lemma_norm_mods (mods:mods_t) (sM sK:vale_state) : Lemma (ensures update_state_mods mods sM sK == update_state_mods_norm mods sM sK) = () [@va_qattr qmodattr] let va_mod_dst_opr64 (o:operand64) : mod_t = match o with \| OConst n -> Mod_None \| OReg r -> Mod_reg (Reg 0 r) \| OMem _ -> Mod_None // TODO: support destination memory operands \| OStack _ -> Mod_None // TODO: support destination stack operands [@va_qattr qmodattr] let va_mod_reg_opr64 (o:reg_operand) : mod_t = match o with \| OReg r -> Mod_reg (Reg 0 r) [@va_qattr qmodattr] let va_mod_xmm (x:reg_xmm) : mod_t = Mod_reg (Reg 1 x) [@va_qattr qmodattr] let va_mod_heaplet (h:heaplet_id) : mod_t = Mod_mem_heaplet h let quickProc_wp (a:Type0) : Type u#1 = (s0:vale_state) -> (wp_continue:vale_state -> a -> Type0) -> Type0 let k_true (#a:Type0) (_:vale_state) (_:a) = True let t_monotone (#a:Type0) (c:va_code) (wp:quickProc_wp a) : Type = s0:vale_state -> k1:(vale_state -> a -> Type0) -> k2:(vale_state -> a -> Type0) -> Lemma (requires (forall (s:vale_state) (g:a). k1 s g ==> k2 s g)) (ensures wp s0 k1 ==> wp s0 k2) let t_compute (#a:Type0) (c:va_code) (wp:quickProc_wp a) : Type = s0:vale_state -> Ghost (vale_state & va_fuel & a) (requires wp s0 k_true) (ensures fun _ -> True) let t_require (s0:va_state) = state_inv s0 unfold let va_t_require = t_require	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	c: Vale.X64.Decls.va_code -> mods: Vale.X64.QuickCode.mods_t -> s0: Vale.X64.State.vale_state -> k: (_: Vale.X64.State.vale_state -> _: a -> Type0) -> _: ((Vale.X64.State.vale_state * Vale.X64.Decls.va_fuel) * a) -> Prims.logical	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Decls.va_code", "Vale.X64.QuickCode.mods_t", "Vale.X64.State.vale_state", "FStar.Pervasives.Native.tuple3", "Vale.X64.Decls.va_fuel", "Prims.l_and", "Vale.X64.Decls.eval_code", "Prims.eq2", "Vale.X64.QuickCode.update_state_mods", "Vale.X64.Decls.state_inv", "Prims.logical" ]	[]	false	false	false	true	true	let va_t_ensure (#a: Type0) (c: va_code) (mods: mods_t) (s0: vale_state) (k: (vale_state -> a -> Type0)) =	fun (sM, f0, g) -> eval_code c s0 f0 sM /\ update_state_mods mods sM s0 == sM /\ state_inv sM /\ k sM g	false
Hacl.Impl.Poly1305.fst	Hacl.Impl.Poly1305.poly1305_update_scalar	val poly1305_update_scalar: #s:field_spec -> len:size_t -> text:lbuffer uint8 len -> pre:precomp_r s -> acc:felem s -> Stack unit (requires fun h -> live h text /\ live h acc /\ live h pre /\ disjoint acc text /\ disjoint acc pre /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h pre) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == S.poly1305_update (as_seq h0 text) (feval h0 acc).[0] (feval h0 (gsub pre 0ul 5ul)).[0])	val poly1305_update_scalar: #s:field_spec -> len:size_t -> text:lbuffer uint8 len -> pre:precomp_r s -> acc:felem s -> Stack unit (requires fun h -> live h text /\ live h acc /\ live h pre /\ disjoint acc text /\ disjoint acc pre /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h pre) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == S.poly1305_update (as_seq h0 text) (feval h0 acc).[0] (feval h0 (gsub pre 0ul 5ul)).[0])	let poly1305_update_scalar #s len text pre acc = let nb = len /. 16ul in let rem = len %. 16ul in let h0 = ST.get () in LSeq.lemma_repeat_blocks #uint8 #S.felem 16 (as_seq h0 text) (S.poly1305_update1 (feval h0 (gsub pre 0ul 5ul)).[0] 16) (S.poly1305_update_last (feval h0 (gsub pre 0ul 5ul)).[0]) (feval h0 acc).[0]; [@ inline_let] let spec_fh h0 = LSeq.repeat_blocks_f 16 (as_seq h0 text) (S.poly1305_update1 (feval h0 (gsub pre 0ul 5ul)).[0] 16) (v nb) in [@ inline_let] let inv h (i:nat{i <= v nb}) = modifies1 acc h0 h /\ live h pre /\ live h text /\ live h acc /\ disjoint acc pre /\ disjoint acc text /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h pre /\ (feval h acc).[0] == Lib.LoopCombinators.repeati i (spec_fh h0) (feval h0 acc).[0] in Lib.Loops.for (size 0) nb inv (fun i -> Lib.LoopCombinators.unfold_repeati (v nb) (spec_fh h0) (feval h0 acc).[0] (v i); poly1305_update1_f #s pre nb len text i acc); let h1 = ST.get () in assert ((feval h1 acc).[0] == Lib.LoopCombinators.repeati (v nb) (spec_fh h0) (feval h0 acc).[0]); if rem >. 0ul then ( let last = sub text (nb ! 16ul) rem in as_seq_gsub h1 text (nb ! 16ul) rem; assert (disjoint acc last); poly1305_update_last #s pre rem last acc)	{ "file_name": "code/poly1305/Hacl.Impl.Poly1305.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 45, "end_line": 405, "start_col": 0, "start_line": 370 }	module Hacl.Impl.Poly1305 open FStar.HyperStack open FStar.HyperStack.All open FStar.Mul open Lib.IntTypes open Lib.Buffer open Lib.ByteBuffer open Hacl.Impl.Poly1305.Fields open Hacl.Impl.Poly1305.Bignum128 module ST = FStar.HyperStack.ST module BSeq = Lib.ByteSequence module LSeq = Lib.Sequence module S = Spec.Poly1305 module Vec = Hacl.Spec.Poly1305.Vec module Equiv = Hacl.Spec.Poly1305.Equiv module F32xN = Hacl.Impl.Poly1305.Field32xN friend Lib.LoopCombinators let _: squash (inversion field_spec) = allow_inversion field_spec #reset-options "--z3rlimit 50 --max_fuel 0 --max_ifuel 0 --using_facts_from '* -FStar.Seq' --record_options" inline_for_extraction noextract let get_acc #s (ctx:poly1305_ctx s) : Stack (felem s) (requires fun h -> live h ctx) (ensures fun h0 acc h1 -> h0 == h1 /\ live h1 acc /\ acc == gsub ctx 0ul (nlimb s)) = sub ctx 0ul (nlimb s) inline_for_extraction noextract let get_precomp_r #s (ctx:poly1305_ctx s) : Stack (precomp_r s) (requires fun h -> live h ctx) (ensures fun h0 pre h1 -> h0 == h1 /\ live h1 pre /\ pre == gsub ctx (nlimb s) (precomplen s)) = sub ctx (nlimb s) (precomplen s) unfold let op_String_Access #a #len = LSeq.index #a #len let as_get_acc #s h ctx = (feval h (gsub ctx 0ul (nlimb s))).[0] let as_get_r #s h ctx = (feval h (gsub ctx (nlimb s) (nlimb s))).[0] let state_inv_t #s h ctx = felem_fits h (gsub ctx 0ul (nlimb s)) (2, 2, 2, 2, 2) /\ F32xN.load_precompute_r_post #(width s) h (gsub ctx (nlimb s) (precomplen s)) #reset-options "--z3rlimit 100 --max_fuel 0 --max_ifuel 0 --record_options" let reveal_ctx_inv' #s ctx ctx' h0 h1 = let acc_b = gsub ctx 0ul (nlimb s) in let acc_b' = gsub ctx' 0ul (nlimb s) in let r_b = gsub ctx (nlimb s) (nlimb s) in let r_b' = gsub ctx' (nlimb s) (nlimb s) in let precom_b = gsub ctx (nlimb s) (precomplen s) in let precom_b' = gsub ctx' (nlimb s) (precomplen s) in as_seq_gsub h0 ctx 0ul (nlimb s); as_seq_gsub h1 ctx 0ul (nlimb s); as_seq_gsub h0 ctx (nlimb s) (nlimb s); as_seq_gsub h1 ctx (nlimb s) (nlimb s); as_seq_gsub h0 ctx (nlimb s) (precomplen s); as_seq_gsub h1 ctx (nlimb s) (precomplen s); as_seq_gsub h0 ctx' 0ul (nlimb s); as_seq_gsub h1 ctx' 0ul (nlimb s); as_seq_gsub h0 ctx' (nlimb s) (nlimb s); as_seq_gsub h1 ctx' (nlimb s) (nlimb s); as_seq_gsub h0 ctx' (nlimb s) (precomplen s); as_seq_gsub h1 ctx' (nlimb s) (precomplen s); assert (as_seq h0 acc_b == as_seq h1 acc_b'); assert (as_seq h0 r_b == as_seq h1 r_b'); assert (as_seq h0 precom_b == as_seq h1 precom_b') val fmul_precomp_inv_zeros: #s:field_spec -> precomp_b:lbuffer (limb s) (precomplen s) -> h:mem -> Lemma (requires as_seq h precomp_b == Lib.Sequence.create (v (precomplen s)) (limb_zero s)) (ensures F32xN.fmul_precomp_r_pre #(width s) h precomp_b) let fmul_precomp_inv_zeros #s precomp_b h = let r_b = gsub precomp_b 0ul (nlimb s) in let r_b5 = gsub precomp_b (nlimb s) (nlimb s) in as_seq_gsub h precomp_b 0ul (nlimb s); as_seq_gsub h precomp_b (nlimb s) (nlimb s); Hacl.Spec.Poly1305.Field32xN.Lemmas.precomp_r5_zeros (width s); LSeq.eq_intro (feval h r_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h r_b5) (LSeq.create (width s) 0); assert (F32xN.as_tup5 #(width s) h r_b5 == F32xN.precomp_r5 (F32xN.as_tup5 h r_b)) val precomp_inv_zeros: #s:field_spec -> precomp_b:lbuffer (limb s) (precomplen s) -> h:mem -> Lemma (requires as_seq h precomp_b == Lib.Sequence.create (v (precomplen s)) (limb_zero s)) (ensures F32xN.load_precompute_r_post #(width s) h precomp_b) #push-options "--z3rlimit 150" let precomp_inv_zeros #s precomp_b h = let r_b = gsub precomp_b 0ul (nlimb s) in let rn_b = gsub precomp_b (2ul ! nlimb s) (nlimb s) in let rn_b5 = gsub precomp_b (3ul ! nlimb s) (nlimb s) in as_seq_gsub h precomp_b 0ul (nlimb s); as_seq_gsub h precomp_b (2ul ! nlimb s) (nlimb s); as_seq_gsub h precomp_b (3ul ! nlimb s) (nlimb s); fmul_precomp_inv_zeros #s precomp_b h; Hacl.Spec.Poly1305.Field32xN.Lemmas.precomp_r5_zeros (width s); LSeq.eq_intro (feval h r_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h rn_b) (LSeq.create (width s) 0); LSeq.eq_intro (feval h rn_b5) (LSeq.create (width s) 0); assert (F32xN.as_tup5 #(width s) h rn_b5 == F32xN.precomp_r5 (F32xN.as_tup5 h rn_b)); assert (feval h rn_b == Vec.compute_rw (feval h r_b).[0]) #pop-options let ctx_inv_zeros #s ctx h = // ctx = [acc_b; r_b; r_b5; rn_b; rn_b5] let acc_b = gsub ctx 0ul (nlimb s) in as_seq_gsub h ctx 0ul (nlimb s); LSeq.eq_intro (feval h acc_b) (LSeq.create (width s) 0); assert (felem_fits h acc_b (2, 2, 2, 2, 2)); let precomp_b = gsub ctx (nlimb s) (precomplen s) in LSeq.eq_intro (as_seq h precomp_b) (Lib.Sequence.create (v (precomplen s)) (limb_zero s)); precomp_inv_zeros #s precomp_b h #reset-options "--z3rlimit 50 --max_fuel 0 --max_ifuel 0 --using_facts_from '* -FStar.Seq' --record_options" inline_for_extraction noextract val poly1305_encode_block: #s:field_spec -> f:felem s -> b:lbuffer uint8 16ul -> Stack unit (requires fun h -> live h b /\ live h f /\ disjoint b f) (ensures fun h0 _ h1 -> modifies (loc f) h0 h1 /\ felem_fits h1 f (1, 1, 1, 1, 1) /\ (feval h1 f).[0] == S.encode 16 (as_seq h0 b)) let poly1305_encode_block #s f b = load_felem_le f b; set_bit128 f inline_for_extraction noextract val poly1305_encode_blocks: #s:field_spec -> f:felem s -> b:lbuffer uint8 (blocklen s) -> Stack unit (requires fun h -> live h b /\ live h f /\ disjoint b f) (ensures fun h0 _ h1 -> modifies (loc f) h0 h1 /\ felem_fits h1 f (1, 1, 1, 1, 1) /\ feval h1 f == Vec.load_blocks #(width s) (as_seq h0 b)) let poly1305_encode_blocks #s f b = load_felems_le f b; set_bit128 f inline_for_extraction noextract val poly1305_encode_last: #s:field_spec -> f:felem s -> len:size_t{v len < 16} -> b:lbuffer uint8 len -> Stack unit (requires fun h -> live h b /\ live h f /\ disjoint b f) (ensures fun h0 _ h1 -> modifies (loc f) h0 h1 /\ felem_fits h1 f (1, 1, 1, 1, 1) /\ (feval h1 f).[0] == S.encode (v len) (as_seq h0 b)) let poly1305_encode_last #s f len b = push_frame(); let tmp = create 16ul (u8 0) in update_sub tmp 0ul len b; let h0 = ST.get () in Hacl.Impl.Poly1305.Lemmas.nat_from_bytes_le_eq_lemma (v len) (as_seq h0 b); assert (BSeq.nat_from_bytes_le (as_seq h0 b) == BSeq.nat_from_bytes_le (as_seq h0 tmp)); assert (BSeq.nat_from_bytes_le (as_seq h0 b) < pow2 (v len * 8)); load_felem_le f tmp; let h1 = ST.get () in lemma_feval_is_fas_nat h1 f; set_bit f (len ! 8ul); pop_frame() inline_for_extraction noextract val poly1305_encode_r: #s:field_spec -> p:precomp_r s -> b:lbuffer uint8 16ul -> Stack unit (requires fun h -> live h b /\ live h p /\ disjoint b p) (ensures fun h0 _ h1 -> modifies (loc p) h0 h1 /\ F32xN.load_precompute_r_post #(width s) h1 p /\ (feval h1 (gsub p 0ul 5ul)).[0] == S.poly1305_encode_r (as_seq h0 b)) let poly1305_encode_r #s p b = let lo = uint_from_bytes_le (sub b 0ul 8ul) in let hi = uint_from_bytes_le (sub b 8ul 8ul) in let mask0 = u64 0x0ffffffc0fffffff in let mask1 = u64 0x0ffffffc0ffffffc in let lo = lo &. mask0 in let hi = hi &. mask1 in load_precompute_r p lo hi [@ Meta.Attribute.specialize ] let poly1305_init #s ctx key = let acc = get_acc ctx in let pre = get_precomp_r ctx in let kr = sub key 0ul 16ul in set_zero acc; poly1305_encode_r #s pre kr inline_for_extraction noextract val update1: #s:field_spec -> p:precomp_r s -> b:lbuffer uint8 16ul -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h b /\ live h acc /\ disjoint p acc /\ disjoint b acc /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == S.poly1305_update1 (feval h0 (gsub p 0ul 5ul)).[0] 16 (as_seq h0 b) (feval h0 acc).[0]) let update1 #s pre b acc = push_frame (); let e = create (nlimb s) (limb_zero s) in poly1305_encode_block e b; fadd_mul_r acc e pre; pop_frame () let poly1305_update1 #s ctx text = let pre = get_precomp_r ctx in let acc = get_acc ctx in update1 pre text acc inline_for_extraction noextract val poly1305_update_last: #s:field_spec -> p:precomp_r s -> len:size_t{v len < 16} -> b:lbuffer uint8 len -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h b /\ live h acc /\ disjoint p acc /\ disjoint b acc /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == S.poly1305_update1 (feval h0 (gsub p 0ul 5ul)).[0] (v len) (as_seq h0 b) (feval h0 acc).[0]) #push-options "--z3rlimit 200" let poly1305_update_last #s pre len b acc = push_frame (); let e = create (nlimb s) (limb_zero s) in poly1305_encode_last e len b; fadd_mul_r acc e pre; pop_frame () #pop-options inline_for_extraction noextract val poly1305_update_nblocks: #s:field_spec -> p:precomp_r s -> b:lbuffer uint8 (blocklen s) -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h b /\ live h acc /\ disjoint acc p /\ disjoint acc b /\ felem_fits h acc (3, 3, 3, 3, 3) /\ F32xN.load_precompute_r_post #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (3, 3, 3, 3, 3) /\ feval h1 acc == Vec.poly1305_update_nblocks #(width s) (feval h0 (gsub p 10ul 5ul)) (as_seq h0 b) (feval h0 acc)) let poly1305_update_nblocks #s pre b acc = push_frame (); let e = create (nlimb s) (limb_zero s) in poly1305_encode_blocks e b; fmul_rn acc acc pre; fadd acc acc e; pop_frame () inline_for_extraction noextract val poly1305_update1_f: #s:field_spec -> p:precomp_r s -> nb:size_t -> len:size_t{v nb == v len / 16} -> text:lbuffer uint8 len -> i:size_t{v i < v nb} -> acc:felem s -> Stack unit (requires fun h -> live h p /\ live h text /\ live h acc /\ disjoint acc p /\ disjoint acc text /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h p) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == LSeq.repeat_blocks_f #uint8 #S.felem 16 (as_seq h0 text) (S.poly1305_update1 (feval h0 (gsub p 0ul 5ul)).[0] 16) (v nb) (v i) (feval h0 acc).[0]) let poly1305_update1_f #s pre nb len text i acc= assert ((v i + 1) 16 <= v nb * 16); let block = sub #_ #_ #len text (i *! 16ul) 16ul in update1 #s pre block acc #push-options "--z3rlimit 100 --max_fuel 1" inline_for_extraction noextract val poly1305_update_scalar: #s:field_spec -> len:size_t -> text:lbuffer uint8 len -> pre:precomp_r s -> acc:felem s -> Stack unit (requires fun h -> live h text /\ live h acc /\ live h pre /\ disjoint acc text /\ disjoint acc pre /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h pre) (ensures fun h0 _ h1 -> modifies (loc acc) h0 h1 /\ felem_fits h1 acc (2, 2, 2, 2, 2) /\ (feval h1 acc).[0] == S.poly1305_update (as_seq h0 text) (feval h0 acc).[0] (feval h0 (gsub pre 0ul 5ul)).[0])	{ "checked_file": "/", "dependencies": [ "Spec.Poly1305.fst.checked", "prims.fst.checked", "Meta.Attribute.fst.checked", "Lib.Sequence.fsti.checked", "Lib.Loops.fsti.checked", "Lib.LoopCombinators.fst.checked", "Lib.IntTypes.fsti.checked", "Lib.ByteSequence.fsti.checked", "Lib.ByteBuffer.fsti.checked", "Lib.Buffer.fsti.checked", "Hacl.Spec.Poly1305.Vec.fst.checked", "Hacl.Spec.Poly1305.Field32xN.Lemmas.fst.checked", "Hacl.Spec.Poly1305.Equiv.fst.checked", "Hacl.Impl.Poly1305.Lemmas.fst.checked", "Hacl.Impl.Poly1305.Fields.fst.checked", "Hacl.Impl.Poly1305.Field32xN.fst.checked", "Hacl.Impl.Poly1305.Bignum128.fsti.checked", "FStar.UInt32.fsti.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked", "FStar.Math.Lemmas.fst.checked", "FStar.HyperStack.ST.fsti.checked", "FStar.HyperStack.All.fst.checked", "FStar.HyperStack.fst.checked" ], "interface_file": true, "source_file": "Hacl.Impl.Poly1305.fst" }	[ { "abbrev": true, "full_module": "Hacl.Impl.Poly1305.Field32xN", "short_module": "F32xN" }, { "abbrev": true, "full_module": "Hacl.Spec.Poly1305.Equiv", "short_module": "Equiv" }, { "abbrev": true, "full_module": "Hacl.Spec.Poly1305.Vec", "short_module": "Vec" }, { "abbrev": true, "full_module": "Spec.Poly1305", "short_module": "S" }, { "abbrev": true, "full_module": "Lib.Sequence", "short_module": "LSeq" }, { "abbrev": true, "full_module": "Lib.ByteSequence", "short_module": "BSeq" }, { "abbrev": true, "full_module": "FStar.HyperStack.ST", "short_module": "ST" }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Bignum128", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Fields", "short_module": null }, { "abbrev": false, "full_module": "Lib.ByteBuffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.All", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": true, "full_module": "Spec.Poly1305", "short_module": "S" }, { "abbrev": false, "full_module": "Hacl.Impl.Poly1305.Fields", "short_module": null }, { "abbrev": false, "full_module": "Lib.Buffer", "short_module": null }, { "abbrev": false, "full_module": "Lib.IntTypes", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack.All", "short_module": null }, { "abbrev": false, "full_module": "FStar.HyperStack", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl", "short_module": null }, { "abbrev": false, "full_module": "Hacl.Impl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 1, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 100, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	len: Lib.IntTypes.size_t -> text: Lib.Buffer.lbuffer Lib.IntTypes.uint8 len -> pre: Hacl.Impl.Poly1305.Fields.precomp_r s -> acc: Hacl.Impl.Poly1305.Fields.felem s -> FStar.HyperStack.ST.Stack Prims.unit	FStar.HyperStack.ST.Stack	[]	[]	[ "Hacl.Impl.Poly1305.Fields.field_spec", "Lib.IntTypes.size_t", "Lib.Buffer.lbuffer", "Lib.IntTypes.uint8", "Hacl.Impl.Poly1305.Fields.precomp_r", "Hacl.Impl.Poly1305.Fields.felem", "Lib.IntTypes.op_Greater_Dot", "Lib.IntTypes.U32", "FStar.UInt32.__uint_to_t", "Hacl.Impl.Poly1305.poly1305_update_last", "Prims.unit", "Prims._assert", "Lib.Buffer.disjoint", "Lib.Buffer.MUT", "Hacl.Impl.Poly1305.Fields.limb", "Lib.Buffer.as_seq_gsub", "Lib.IntTypes.op_Star_Bang", "Lib.IntTypes.PUB", "Lib.Buffer.lbuffer_t", "Lib.IntTypes.int_t", "Lib.IntTypes.U8", "Lib.IntTypes.SEC", "Lib.Buffer.sub", "Prims.bool", "Prims.eq2", "Spec.Poly1305.felem", "Hacl.Impl.Poly1305.op_String_Access", "Hacl.Impl.Poly1305.Fields.width", "Hacl.Impl.Poly1305.Fields.feval", "Lib.LoopCombinators.repeati", "Lib.IntTypes.v", "FStar.Monotonic.HyperStack.mem", "FStar.HyperStack.ST.get", "Lib.Loops.for", "Lib.IntTypes.size", "Prims.l_and", "Prims.b2t", "Prims.op_LessThanOrEqual", "Prims.op_LessThan", "Hacl.Impl.Poly1305.poly1305_update1_f", "Lib.LoopCombinators.unfold_repeati", "Prims.nat", "Prims.logical", "Lib.Buffer.modifies1", "Lib.Buffer.live", "Hacl.Impl.Poly1305.Fields.felem_fits", "FStar.Pervasives.Native.Mktuple5", "Hacl.Impl.Poly1305.Field32xN.fmul_precomp_r_pre", "Lib.Sequence.repeat_blocks_f", "Lib.Buffer.as_seq", "Spec.Poly1305.poly1305_update1", "Lib.Buffer.gsub", "Hacl.Impl.Poly1305.Fields.precomplen", "Lib.Sequence.lemma_repeat_blocks", "Spec.Poly1305.poly1305_update_last", "Lib.IntTypes.op_Percent_Dot", "Lib.IntTypes.op_Slash_Dot" ]	[]	false	true	false	false	false	let poly1305_update_scalar #s len text pre acc =	let nb = len /. 16ul in let rem = len %. 16ul in let h0 = ST.get () in LSeq.lemma_repeat_blocks #uint8 #S.felem 16 (as_seq h0 text) (S.poly1305_update1 (feval h0 (gsub pre 0ul 5ul)).[ 0 ] 16) (S.poly1305_update_last (feval h0 (gsub pre 0ul 5ul)).[ 0 ]) (feval h0 acc).[ 0 ]; [@@ inline_let ]let spec_fh h0 = LSeq.repeat_blocks_f 16 (as_seq h0 text) (S.poly1305_update1 (feval h0 (gsub pre 0ul 5ul)).[ 0 ] 16) (v nb) in [@@ inline_let ]let inv h (i: nat{i <= v nb}) = modifies1 acc h0 h /\ live h pre /\ live h text /\ live h acc /\ disjoint acc pre /\ disjoint acc text /\ felem_fits h acc (2, 2, 2, 2, 2) /\ F32xN.fmul_precomp_r_pre #(width s) h pre /\ (feval h acc).[ 0 ] == Lib.LoopCombinators.repeati i (spec_fh h0) (feval h0 acc).[ 0 ] in Lib.Loops.for (size 0) nb inv (fun i -> Lib.LoopCombinators.unfold_repeati (v nb) (spec_fh h0) (feval h0 acc).[ 0 ] (v i); poly1305_update1_f #s pre nb len text i acc); let h1 = ST.get () in assert ((feval h1 acc).[ 0 ] == Lib.LoopCombinators.repeati (v nb) (spec_fh h0) (feval h0 acc).[ 0 ] ); if rem >. 0ul then (let last = sub text (nb ! 16ul) rem in as_seq_gsub h1 text (nb ! 16ul) rem; assert (disjoint acc last); poly1305_update_last #s pre rem last acc)	false
Hacl.Bignum64.fst	Hacl.Bignum64.mod_inv_prime_vartime	val mod_inv_prime_vartime: len:BN.meta_len t_limbs -> BS.bn_mod_inv_prime_safe_st t_limbs len	val mod_inv_prime_vartime: len:BN.meta_len t_limbs -> BS.bn_mod_inv_prime_safe_st t_limbs len	let mod_inv_prime_vartime len n a res = BS.mk_bn_mod_inv_prime_safe len (ke len).BE.exp_vt n a res	{ "file_name": "code/bignum/Hacl.Bignum64.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 60, "end_line": 55, "start_col": 0, "start_line": 54 }	module Hacl.Bignum64 open FStar.Mul module BN = Hacl.Bignum module BE = Hacl.Bignum.Exponentiation module BR = Hacl.Bignum.ModReduction module AM = Hacl.Bignum.AlmostMontgomery module MA = Hacl.Bignum.MontArithmetic module BI = Hacl.Bignum.ModInv module BM = Hacl.Bignum.Montgomery #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" inline_for_extraction noextract let kam (len:BN.meta_len t_limbs) = AM.mk_runtime_almost_mont #t_limbs len inline_for_extraction noextract let ke (len:BN.meta_len t_limbs) = BE.mk_runtime_exp #t_limbs len let add len a b res = (ke len).BE.bn.BN.add a b res let sub len a b res = (ke len).BE.bn.BN.sub a b res let add_mod len n a b res = (ke len).BE.bn.BN.add_mod_n n a b res let sub_mod len n a b res = (ke len).BE.bn.BN.sub_mod_n n a b res let mul len a b res = (ke len).BE.bn.BN.mul a b res let sqr len a res = (ke len).BE.bn.BN.sqr a res [@CInline] let bn_slow_precomp (len:BN.meta_len t_limbs) : BR.bn_mod_slow_precomp_st t_limbs len = BR.bn_mod_slow_precomp (kam len) let mod len n a res = BS.mk_bn_mod_slow_safe len (BR.mk_bn_mod_slow len (kam len).AM.precomp (bn_slow_precomp len)) n a res let mod_exp_vartime len n a bBits b res = BS.mk_bn_mod_exp_safe len (ke len).BE.exp_check (ke len).BE.exp_vt n a bBits b res let mod_exp_consttime len n a bBits b res = BS.mk_bn_mod_exp_safe len (ke len).BE.exp_check (ke len).BE.exp_ct n a bBits b res	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "Hacl.Bignum.Montgomery.fsti.checked", "Hacl.Bignum.MontArithmetic.fsti.checked", "Hacl.Bignum.ModReduction.fst.checked", "Hacl.Bignum.ModInv.fst.checked", "Hacl.Bignum.Exponentiation.fsti.checked", "Hacl.Bignum.Convert.fst.checked", "Hacl.Bignum.AlmostMontgomery.fsti.checked", "Hacl.Bignum.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Hacl.Bignum64.fst" }	[ { "abbrev": true, "full_module": "Hacl.Bignum.Montgomery", "short_module": "BM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModInv", "short_module": "BI" }, { "abbrev": true, "full_module": "Hacl.Bignum.AlmostMontgomery", "short_module": "AM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModReduction", "short_module": "BR" }, { "abbrev": true, "full_module": "Hacl.Bignum.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Hacl.Bignum.MontArithmetic", "short_module": "MA" }, { "abbrev": true, "full_module": "Hacl.Bignum.SafeAPI", "short_module": "BS" }, { "abbrev": true, "full_module": "Hacl.Bignum", "short_module": "BN" }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	len: Hacl.Bignum.meta_len Hacl.Bignum64.t_limbs -> Hacl.Bignum.SafeAPI.bn_mod_inv_prime_safe_st Hacl.Bignum64.t_limbs len	Prims.Tot	[ "total" ]	[]	[ "Hacl.Bignum.meta_len", "Hacl.Bignum64.t_limbs", "Hacl.Bignum.Definitions.lbignum", "Hacl.Bignum.SafeAPI.mk_bn_mod_inv_prime_safe", "Hacl.Bignum.Exponentiation.__proj__Mkexp__item__exp_vt", "Hacl.Bignum64.ke", "Prims.bool" ]	[]	false	false	false	false	false	let mod_inv_prime_vartime len n a res =	BS.mk_bn_mod_inv_prime_safe len (ke len).BE.exp_vt n a res	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.va_mod_xmm	val va_mod_xmm (x: reg_xmm) : mod_t	val va_mod_xmm (x: reg_xmm) : mod_t	let va_mod_xmm (x:reg_xmm) : mod_t = Mod_reg (Reg 1 x)	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 75, "end_line": 88, "start_col": 21, "start_line": 88 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t [@va_qattr] unfold let va_Mod_None = Mod_None [@va_qattr] unfold let va_Mod_ok = Mod_ok [@va_qattr] unfold let va_Mod_reg64 (r:reg_64) = Mod_reg (Reg 0 r) [@va_qattr] unfold let va_Mod_xmm (r:reg_xmm) = Mod_reg (Reg 1 r) [@va_qattr] unfold let va_Mod_flags = Mod_flags [@va_qattr] unfold let va_Mod_mem = Mod_mem [@va_qattr] unfold let va_Mod_mem_layout = Mod_mem_layout [@va_qattr] unfold let va_Mod_mem_heaplet (n:heaplet_id) = Mod_mem_heaplet n [@va_qattr] unfold let va_Mod_stack = Mod_stack [@va_qattr] unfold let va_Mod_stackTaint = Mod_stackTaint [@va_qattr "opaque_to_smt"] let mod_eq (x y:mod_t) : Pure bool (requires True) (ensures fun b -> b == (x = y)) = match x with \| Mod_None -> (match y with Mod_None -> true \| _ -> false) \| Mod_ok -> (match y with Mod_ok -> true \| _ -> false) \| Mod_reg rx -> (match y with Mod_reg ry -> rx = ry \| _ -> false) \| Mod_flags -> (match y with Mod_flags -> true \| _ -> false) \| Mod_mem -> (match y with Mod_mem -> true \| _ -> false) \| Mod_mem_layout -> (match y with Mod_mem_layout -> true \| _ -> false) \| Mod_mem_heaplet nx -> (match y with Mod_mem_heaplet ny -> nx = ny \| _ -> false) \| Mod_stack -> (match y with Mod_stack -> true \| _ -> false) \| Mod_stackTaint -> (match y with Mod_stackTaint -> true \| _ -> false) [@va_qattr] let update_state_mod (m:mod_t) (sM sK:vale_state) : vale_state = match m with \| Mod_None -> sK \| Mod_ok -> va_update_ok sM sK \| Mod_reg r -> update_register r sM sK \| Mod_flags -> va_update_flags sM sK \| Mod_mem -> va_update_mem sM sK \| Mod_mem_layout -> va_update_mem_layout sM sK \| Mod_mem_heaplet n -> va_update_mem_heaplet n sM sK \| Mod_stack -> va_update_stack sM sK \| Mod_stackTaint -> va_update_stackTaint sM sK [@va_qattr] let rec update_state_mods (mods:mods_t) (sM sK:vale_state) : vale_state = match mods with \| [] -> sK \| m::mods -> update_state_mod m sM (update_state_mods mods sM sK) [@va_qattr] unfold let update_state_mods_norm (mods:mods_t) (sM sK:vale_state) : vale_state = norm [iota; zeta; delta_attr [`%qmodattr]; delta_only [`%update_state_mods; `%update_state_mod]] (update_state_mods mods sM sK) let va_lemma_norm_mods (mods:mods_t) (sM sK:vale_state) : Lemma (ensures update_state_mods mods sM sK == update_state_mods_norm mods sM sK) = () [@va_qattr qmodattr] let va_mod_dst_opr64 (o:operand64) : mod_t = match o with \| OConst n -> Mod_None \| OReg r -> Mod_reg (Reg 0 r) \| OMem _ -> Mod_None // TODO: support destination memory operands \| OStack _ -> Mod_None // TODO: support destination stack operands [@va_qattr qmodattr] let va_mod_reg_opr64 (o:reg_operand) : mod_t = match o with \| OReg r -> Mod_reg (Reg 0 r)	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	x: Vale.X64.Machine_s.reg_xmm -> Vale.X64.QuickCode.mod_t	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Machine_s.reg_xmm", "Vale.X64.QuickCode.Mod_reg", "Vale.X64.Machine_s.Reg", "Vale.X64.QuickCode.mod_t" ]	[]	false	false	false	true	false	let va_mod_xmm (x: reg_xmm) : mod_t =	Mod_reg (Reg 1 x)	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_lemma_RotWord	val va_lemma_RotWord : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_RotWord dst src1 src2) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src1 va_s0 /\ va_is_src_vec_opr src2 va_s0 /\ va_get_ok va_s0 /\ (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src2) == 8 /\ Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src2) == 8 /\ Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src2) == 8 /\ Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src2) == 8))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.AES.AES_BE_s.rot_word (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src1))) (Vale.AES.AES_BE_s.rot_word (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src1))) (Vale.AES.AES_BE_s.rot_word (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src1))) (Vale.AES.AES_BE_s.rot_word (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src1))) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	val va_lemma_RotWord : va_b0:va_code -> va_s0:va_state -> dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> Ghost (va_state & va_fuel) (requires (va_require_total va_b0 (va_code_RotWord dst src1 src2) va_s0 /\ va_is_dst_vec_opr dst va_s0 /\ va_is_src_vec_opr src1 va_s0 /\ va_is_src_vec_opr src2 va_s0 /\ va_get_ok va_s0 /\ (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src2) == 8 /\ Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src2) == 8 /\ Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src2) == 8 /\ Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src2) == 8))) (ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\ va_eval_vec_opr va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.AES.AES_BE_s.rot_word (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_s0 src1))) (Vale.AES.AES_BE_s.rot_word (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_s0 src1))) (Vale.AES.AES_BE_s.rot_word (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_s0 src1))) (Vale.AES.AES_BE_s.rot_word (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_s0 src1))) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))))	let va_lemma_RotWord va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_RotWord) (va_code_RotWord dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.RotWord dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.RotWord dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 16, "end_line": 1073, "start_col": 0, "start_line": 1068 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma1 (va_code_SHA256_Sigma1 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsbox [@ "opaque_to_smt"] let va_code_Vsbox dst src = (Ins (S.Vsbox dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vsbox dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsbox va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vsbox) (va_code_Vsbox dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsbox dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsbox dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsbox dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsbox (va_code_Vsbox dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- RotWord [@ "opaque_to_smt"] let va_code_RotWord dst src1 src2 = (Ins (S.RotWord dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_RotWord dst src1 src2 = (va_ttrue ())	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	va_b0: Vale.PPC64LE.Decls.va_code -> va_s0: Vale.PPC64LE.Decls.va_state -> dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_code", "Vale.PPC64LE.Decls.va_state", "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.State.state", "Vale.PPC64LE.Lemmas.fuel", "FStar.Pervasives.Native.Mktuple2", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Prims.nat", "Vale.PPC64LE.Decls.va_eval_ins", "Vale.PPC64LE.Machine_s.Ins", "Vale.PPC64LE.Semantics_s.ins", "Vale.PPC64LE.Semantics_s.ocmp", "Vale.PPC64LE.Semantics_s.RotWord", "Prims.unit", "Vale.PPC64LE.Decls.va_ins_lemma", "Vale.PPC64LE.Decls.ins", "Vale.PPC64LE.Decls.ocmp", "Vale.PPC64LE.Decls.va_reveal_opaque", "Vale.PPC64LE.InsVector.va_code_RotWord" ]	[]	false	false	false	false	false	let va_lemma_RotWord va_b0 va_s0 dst src1 src2 =	va_reveal_opaque (`%va_code_RotWord) (va_code_RotWord dst src1 src2); let va_old_s:va_state = va_s0 in va_ins_lemma (Ins (S.RotWord dst src1 src2)) va_s0; let va_sM, va_fM = va_eval_ins (Ins (S.RotWord dst src1 src2)) va_s0 in (va_sM, va_fM)	false
Effects.Def.fst	Effects.Def.eq_m		val eq_m : m: (_: Type -> Type) -> Type	let eq_m (m:Type -> Type) = eq:(a:Type -> m a -> m a -> Type){forall a x y. eq a x y ==> x == y}	{ "file_name": "examples/dm4free/Effects.Def.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 96, "end_line": 33, "start_col": 0, "start_line": 33 }	(* Copyright 2008-2018 Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) ( This module defines 4 monads arranged in a partial order stexn ^ ^ / \ st exn \ / v v exnst Proving the monad laws for each point and the morphism laws for each edge. *) module Effects.Def open FStar.FunctionalExtensionality //proving the laws requires feq	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.FunctionalExtensionality.fsti.checked" ], "interface_file": false, "source_file": "Effects.Def.fst" }	[ { "abbrev": false, "full_module": "FStar.FunctionalExtensionality //proving the laws requires feq", "short_module": null }, { "abbrev": false, "full_module": "FStar.FunctionalExtensionality", "short_module": null }, { "abbrev": false, "full_module": "Effects", "short_module": null }, { "abbrev": false, "full_module": "Effects", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	m: (_: Type -> Type) -> Type	Prims.Tot	[ "total" ]	[]	[ "Prims.l_Forall", "Prims.l_imp", "Prims.eq2" ]	[]	false	false	false	true	true	let eq_m (m: (Type -> Type)) =	eq: (a: Type -> m a -> m a -> Type){forall a x y. eq a x y ==> x == y}	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.update_state_mods	val update_state_mods (mods: mods_t) (sM sK: vale_state) : vale_state	val update_state_mods (mods: mods_t) (sM sK: vale_state) : vale_state	let rec update_state_mods (mods:mods_t) (sM sK:vale_state) : vale_state = match mods with \| [] -> sK \| m::mods -> update_state_mod m sM (update_state_mods mods sM sK)	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 67, "end_line": 65, "start_col": 0, "start_line": 62 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t [@va_qattr] unfold let va_Mod_None = Mod_None [@va_qattr] unfold let va_Mod_ok = Mod_ok [@va_qattr] unfold let va_Mod_reg64 (r:reg_64) = Mod_reg (Reg 0 r) [@va_qattr] unfold let va_Mod_xmm (r:reg_xmm) = Mod_reg (Reg 1 r) [@va_qattr] unfold let va_Mod_flags = Mod_flags [@va_qattr] unfold let va_Mod_mem = Mod_mem [@va_qattr] unfold let va_Mod_mem_layout = Mod_mem_layout [@va_qattr] unfold let va_Mod_mem_heaplet (n:heaplet_id) = Mod_mem_heaplet n [@va_qattr] unfold let va_Mod_stack = Mod_stack [@va_qattr] unfold let va_Mod_stackTaint = Mod_stackTaint [@va_qattr "opaque_to_smt"] let mod_eq (x y:mod_t) : Pure bool (requires True) (ensures fun b -> b == (x = y)) = match x with \| Mod_None -> (match y with Mod_None -> true \| _ -> false) \| Mod_ok -> (match y with Mod_ok -> true \| _ -> false) \| Mod_reg rx -> (match y with Mod_reg ry -> rx = ry \| _ -> false) \| Mod_flags -> (match y with Mod_flags -> true \| _ -> false) \| Mod_mem -> (match y with Mod_mem -> true \| _ -> false) \| Mod_mem_layout -> (match y with Mod_mem_layout -> true \| _ -> false) \| Mod_mem_heaplet nx -> (match y with Mod_mem_heaplet ny -> nx = ny \| _ -> false) \| Mod_stack -> (match y with Mod_stack -> true \| _ -> false) \| Mod_stackTaint -> (match y with Mod_stackTaint -> true \| _ -> false) [@va_qattr] let update_state_mod (m:mod_t) (sM sK:vale_state) : vale_state = match m with \| Mod_None -> sK \| Mod_ok -> va_update_ok sM sK \| Mod_reg r -> update_register r sM sK \| Mod_flags -> va_update_flags sM sK \| Mod_mem -> va_update_mem sM sK \| Mod_mem_layout -> va_update_mem_layout sM sK \| Mod_mem_heaplet n -> va_update_mem_heaplet n sM sK \| Mod_stack -> va_update_stack sM sK \| Mod_stackTaint -> va_update_stackTaint sM sK	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	mods: Vale.X64.QuickCode.mods_t -> sM: Vale.X64.State.vale_state -> sK: Vale.X64.State.vale_state -> Vale.X64.State.vale_state	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.QuickCode.mods_t", "Vale.X64.State.vale_state", "Vale.X64.QuickCode.mod_t", "Prims.list", "Vale.X64.QuickCode.update_state_mod", "Vale.X64.QuickCode.update_state_mods" ]	[ "recursion" ]	false	false	false	true	false	let rec update_state_mods (mods: mods_t) (sM sK: vale_state) : vale_state =	match mods with \| [] -> sK \| m :: mods -> update_state_mod m sM (update_state_mods mods sM sK)	false
Hacl.Bignum64.fst	Hacl.Bignum64.mont_ctx_init	val mont_ctx_init: len:BN.meta_len t_limbs -> MA.bn_field_init_st t_limbs len	val mont_ctx_init: len:BN.meta_len t_limbs -> MA.bn_field_init_st t_limbs len	let mont_ctx_init len r n = MA.bn_field_init len (ke len).BE.precompr2 r n	{ "file_name": "code/bignum/Hacl.Bignum64.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 48, "end_line": 58, "start_col": 0, "start_line": 57 }	module Hacl.Bignum64 open FStar.Mul module BN = Hacl.Bignum module BE = Hacl.Bignum.Exponentiation module BR = Hacl.Bignum.ModReduction module AM = Hacl.Bignum.AlmostMontgomery module MA = Hacl.Bignum.MontArithmetic module BI = Hacl.Bignum.ModInv module BM = Hacl.Bignum.Montgomery #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" inline_for_extraction noextract let kam (len:BN.meta_len t_limbs) = AM.mk_runtime_almost_mont #t_limbs len inline_for_extraction noextract let ke (len:BN.meta_len t_limbs) = BE.mk_runtime_exp #t_limbs len let add len a b res = (ke len).BE.bn.BN.add a b res let sub len a b res = (ke len).BE.bn.BN.sub a b res let add_mod len n a b res = (ke len).BE.bn.BN.add_mod_n n a b res let sub_mod len n a b res = (ke len).BE.bn.BN.sub_mod_n n a b res let mul len a b res = (ke len).BE.bn.BN.mul a b res let sqr len a res = (ke len).BE.bn.BN.sqr a res [@CInline] let bn_slow_precomp (len:BN.meta_len t_limbs) : BR.bn_mod_slow_precomp_st t_limbs len = BR.bn_mod_slow_precomp (kam len) let mod len n a res = BS.mk_bn_mod_slow_safe len (BR.mk_bn_mod_slow len (kam len).AM.precomp (bn_slow_precomp len)) n a res let mod_exp_vartime len n a bBits b res = BS.mk_bn_mod_exp_safe len (ke len).BE.exp_check (ke len).BE.exp_vt n a bBits b res let mod_exp_consttime len n a bBits b res = BS.mk_bn_mod_exp_safe len (ke len).BE.exp_check (ke len).BE.exp_ct n a bBits b res let mod_inv_prime_vartime len n a res = BS.mk_bn_mod_inv_prime_safe len (ke len).BE.exp_vt n a res	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "Hacl.Bignum.Montgomery.fsti.checked", "Hacl.Bignum.MontArithmetic.fsti.checked", "Hacl.Bignum.ModReduction.fst.checked", "Hacl.Bignum.ModInv.fst.checked", "Hacl.Bignum.Exponentiation.fsti.checked", "Hacl.Bignum.Convert.fst.checked", "Hacl.Bignum.AlmostMontgomery.fsti.checked", "Hacl.Bignum.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Hacl.Bignum64.fst" }	[ { "abbrev": true, "full_module": "Hacl.Bignum.Montgomery", "short_module": "BM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModInv", "short_module": "BI" }, { "abbrev": true, "full_module": "Hacl.Bignum.AlmostMontgomery", "short_module": "AM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModReduction", "short_module": "BR" }, { "abbrev": true, "full_module": "Hacl.Bignum.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Hacl.Bignum.MontArithmetic", "short_module": "MA" }, { "abbrev": true, "full_module": "Hacl.Bignum.SafeAPI", "short_module": "BS" }, { "abbrev": true, "full_module": "Hacl.Bignum", "short_module": "BN" }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	len: Hacl.Bignum.meta_len Hacl.Bignum64.t_limbs -> Hacl.Bignum.MontArithmetic.bn_field_init_st Hacl.Bignum64.t_limbs len	Prims.Tot	[ "total" ]	[]	[ "Hacl.Bignum.meta_len", "Hacl.Bignum64.t_limbs", "FStar.Monotonic.HyperHeap.rid", "Hacl.Bignum.Definitions.lbignum", "Hacl.Bignum.MontArithmetic.bn_field_init", "Hacl.Bignum.Exponentiation.__proj__Mkexp__item__precompr2", "Hacl.Bignum64.ke", "Hacl.Bignum.MontArithmetic.pbn_mont_ctx" ]	[]	false	false	false	false	false	let mont_ctx_init len r n =	MA.bn_field_init len (ke len).BE.precompr2 r n	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.update_state_mod	val update_state_mod (m: mod_t) (sM sK: vale_state) : vale_state	val update_state_mod (m: mod_t) (sM sK: vale_state) : vale_state	let update_state_mod (m:mod_t) (sM sK:vale_state) : vale_state = match m with \| Mod_None -> sK \| Mod_ok -> va_update_ok sM sK \| Mod_reg r -> update_register r sM sK \| Mod_flags -> va_update_flags sM sK \| Mod_mem -> va_update_mem sM sK \| Mod_mem_layout -> va_update_mem_layout sM sK \| Mod_mem_heaplet n -> va_update_mem_heaplet n sM sK \| Mod_stack -> va_update_stack sM sK \| Mod_stackTaint -> va_update_stackTaint sM sK	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 48, "end_line": 59, "start_col": 0, "start_line": 49 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t [@va_qattr] unfold let va_Mod_None = Mod_None [@va_qattr] unfold let va_Mod_ok = Mod_ok [@va_qattr] unfold let va_Mod_reg64 (r:reg_64) = Mod_reg (Reg 0 r) [@va_qattr] unfold let va_Mod_xmm (r:reg_xmm) = Mod_reg (Reg 1 r) [@va_qattr] unfold let va_Mod_flags = Mod_flags [@va_qattr] unfold let va_Mod_mem = Mod_mem [@va_qattr] unfold let va_Mod_mem_layout = Mod_mem_layout [@va_qattr] unfold let va_Mod_mem_heaplet (n:heaplet_id) = Mod_mem_heaplet n [@va_qattr] unfold let va_Mod_stack = Mod_stack [@va_qattr] unfold let va_Mod_stackTaint = Mod_stackTaint [@va_qattr "opaque_to_smt"] let mod_eq (x y:mod_t) : Pure bool (requires True) (ensures fun b -> b == (x = y)) = match x with \| Mod_None -> (match y with Mod_None -> true \| _ -> false) \| Mod_ok -> (match y with Mod_ok -> true \| _ -> false) \| Mod_reg rx -> (match y with Mod_reg ry -> rx = ry \| _ -> false) \| Mod_flags -> (match y with Mod_flags -> true \| _ -> false) \| Mod_mem -> (match y with Mod_mem -> true \| _ -> false) \| Mod_mem_layout -> (match y with Mod_mem_layout -> true \| _ -> false) \| Mod_mem_heaplet nx -> (match y with Mod_mem_heaplet ny -> nx = ny \| _ -> false) \| Mod_stack -> (match y with Mod_stack -> true \| _ -> false) \| Mod_stackTaint -> (match y with Mod_stackTaint -> true \| _ -> false)	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	m: Vale.X64.QuickCode.mod_t -> sM: Vale.X64.State.vale_state -> sK: Vale.X64.State.vale_state -> Vale.X64.State.vale_state	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.QuickCode.mod_t", "Vale.X64.State.vale_state", "Vale.X64.Decls.va_update_ok", "Vale.X64.Machine_s.reg", "Vale.X64.Decls.update_register", "Vale.X64.Decls.va_update_flags", "Vale.X64.Decls.va_update_mem", "Vale.X64.Decls.va_update_mem_layout", "Vale.X64.Decls.heaplet_id", "Vale.X64.Decls.va_update_mem_heaplet", "Vale.X64.Decls.va_update_stack", "Vale.X64.Decls.va_update_stackTaint" ]	[]	false	false	false	true	false	let update_state_mod (m: mod_t) (sM sK: vale_state) : vale_state =	match m with \| Mod_None -> sK \| Mod_ok -> va_update_ok sM sK \| Mod_reg r -> update_register r sM sK \| Mod_flags -> va_update_flags sM sK \| Mod_mem -> va_update_mem sM sK \| Mod_mem_layout -> va_update_mem_layout sM sK \| Mod_mem_heaplet n -> va_update_mem_heaplet n sM sK \| Mod_stack -> va_update_stack sM sK \| Mod_stackTaint -> va_update_stackTaint sM sK	false
Effects.Def.fst	Effects.Def.st		val st : a: Type -> Type	let st (a:Type) = restricted_t s (fun _ -> a * s)	{ "file_name": "examples/dm4free/Effects.Def.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 49, "end_line": 84, "start_col": 0, "start_line": 84 }	(* Copyright 2008-2018 Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) ( This module defines 4 monads arranged in a partial order stexn ^ ^ / \ st exn \ / v v exnst Proving the monad laws for each point and the morphism laws for each edge. ) module Effects.Def open FStar.FunctionalExtensionality //proving the laws requires feq //A generic template for proving the monad laws, via some equivalence relation eq_m let eq_m (m:Type -> Type) = eq:(a:Type -> m a -> m a -> Type){forall a x y. eq a x y ==> x == y} let eq_m_aux (#m : Type->Type) (e : eq_m m) (#a : Type) (x y : m a) : Lemma (requires (e _ x y)) (ensures (x == y)) = () val monad_laws_via_eq: m:(Type -> Type) -> eq:eq_m m -> return:(a:Type -> x:a -> Tot (m a)) -> bind:(a:Type -> b:Type -> m a -> (a -> Tot (m b)) -> Tot (m b)) -> Lemma (requires (forall (a:Type) (f:m a). eq a (bind a a f (return a)) f) /\ (forall (a:Type) (b:Type) (x:a) (f:a -> Tot (m b)). eq b (bind a b (return a x) f) (f x)) /\ (forall (a:Type) (b:Type) (c:Type) (f:m a) (g:(a -> Tot (m b))) (h:(b -> Tot (m c))). eq c (bind a c f (fun x -> bind b c (g x) h)) (bind b c (bind a b f g) h))) (ensures (forall (a:Type) (f:m a). bind a a f (return a) == f) //right unit /\ (forall (a:Type) (b:Type) (x:a) (f:a -> Tot (m b)). bind a b (return a x) f == f x) //left unit /\ (forall (a:Type) (b:Type) (c:Type) (f:m a) (g:(a -> Tot (m b))) (h:(b -> Tot (m c))). //associativity bind a c f (fun x -> bind b c (g x) h) == bind b c (bind a b f g) h)) let monad_laws_via_eq m eq return bind = let lem (a:Type) (f:m a) : Lemma (bind a a f (return a) == f) [SMTPat (bind a a f (return a))] = assert (bind a a f (return a) `eq a` f); eq_m_aux eq (bind a a f (return a)) f; // GM: ^ Unsure why Z3 doesn't figure this out on its own // instead of needing this lemma call. That's the only // reason this inner lemma exists. assert (bind a a f (return a) == f) in () //A generic template for proving the monad morphism laws, via some equivalence relation eq_m val morphism_laws_via_eq: m:(Type -> Type) -> n:(Type -> Type) -> eq_n:eq_m n -> return_m:(a:Type -> x:a -> Tot (m a)) -> bind_m:(a:Type -> b:Type -> m a -> (a -> Tot (m b)) -> Tot (m b)) -> return_n:(a:Type -> x:a -> Tot (n a)) -> bind_n:(a:Type -> b:Type -> n a -> (a -> Tot (n b)) -> Tot (n b)) -> lift:(a:Type -> m a -> Tot (n a)) -> Lemma (requires (forall (a:Type) (x:a). eq_n a (lift a (return_m a x)) (return_n a x)) /\ (forall (a:Type) (b:Type) (f:m a) (g: a -> Tot (m b)). eq_n b (lift b (bind_m a b f g)) (bind_n a b (lift a f) (fun x -> lift b (g x))))) (ensures (forall (a:Type) (x:a). lift a (return_m a x) == return_n a x) //lift-unit /\ (forall (a:Type) (b:Type) (f:m a) (g: a -> Tot (m b)). lift b (bind_m a b f g) == bind_n a b (lift a f) (fun x -> lift b (g x)))) //lift-bind #set-options "--initial_fuel 0 --max_fuel 0 --initial_ifuel 0 --max_ifuel 0 --z3rlimit 100" let morphism_laws_via_eq m n eqn return_m bind_m return_n bind_n lift = () #reset-options ( *****************************************************************************) ( Effect (st a) : A state monad over an abstract state type s ) ( ******************************************************************************) assume type s : Type //an abstract type of the state	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.FunctionalExtensionality.fsti.checked" ], "interface_file": false, "source_file": "Effects.Def.fst" }	[ { "abbrev": false, "full_module": "FStar.FunctionalExtensionality //proving the laws requires feq", "short_module": null }, { "abbrev": false, "full_module": "FStar.FunctionalExtensionality", "short_module": null }, { "abbrev": false, "full_module": "Effects", "short_module": null }, { "abbrev": false, "full_module": "Effects", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	a: Type -> Type	Prims.Tot	[ "total" ]	[]	[ "FStar.FunctionalExtensionality.restricted_t", "Effects.Def.s", "FStar.Pervasives.Native.tuple2" ]	[]	false	false	false	true	true	let st (a: Type) =	restricted_t s (fun _ -> a * s)	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.va_mod_reg_opr64	val va_mod_reg_opr64 (o: reg_operand) : mod_t	val va_mod_reg_opr64 (o: reg_operand) : mod_t	let va_mod_reg_opr64 (o:reg_operand) : mod_t = match o with \| OReg r -> Mod_reg (Reg 0 r)	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 31, "end_line": 86, "start_col": 0, "start_line": 84 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t [@va_qattr] unfold let va_Mod_None = Mod_None [@va_qattr] unfold let va_Mod_ok = Mod_ok [@va_qattr] unfold let va_Mod_reg64 (r:reg_64) = Mod_reg (Reg 0 r) [@va_qattr] unfold let va_Mod_xmm (r:reg_xmm) = Mod_reg (Reg 1 r) [@va_qattr] unfold let va_Mod_flags = Mod_flags [@va_qattr] unfold let va_Mod_mem = Mod_mem [@va_qattr] unfold let va_Mod_mem_layout = Mod_mem_layout [@va_qattr] unfold let va_Mod_mem_heaplet (n:heaplet_id) = Mod_mem_heaplet n [@va_qattr] unfold let va_Mod_stack = Mod_stack [@va_qattr] unfold let va_Mod_stackTaint = Mod_stackTaint [@va_qattr "opaque_to_smt"] let mod_eq (x y:mod_t) : Pure bool (requires True) (ensures fun b -> b == (x = y)) = match x with \| Mod_None -> (match y with Mod_None -> true \| _ -> false) \| Mod_ok -> (match y with Mod_ok -> true \| _ -> false) \| Mod_reg rx -> (match y with Mod_reg ry -> rx = ry \| _ -> false) \| Mod_flags -> (match y with Mod_flags -> true \| _ -> false) \| Mod_mem -> (match y with Mod_mem -> true \| _ -> false) \| Mod_mem_layout -> (match y with Mod_mem_layout -> true \| _ -> false) \| Mod_mem_heaplet nx -> (match y with Mod_mem_heaplet ny -> nx = ny \| _ -> false) \| Mod_stack -> (match y with Mod_stack -> true \| _ -> false) \| Mod_stackTaint -> (match y with Mod_stackTaint -> true \| _ -> false) [@va_qattr] let update_state_mod (m:mod_t) (sM sK:vale_state) : vale_state = match m with \| Mod_None -> sK \| Mod_ok -> va_update_ok sM sK \| Mod_reg r -> update_register r sM sK \| Mod_flags -> va_update_flags sM sK \| Mod_mem -> va_update_mem sM sK \| Mod_mem_layout -> va_update_mem_layout sM sK \| Mod_mem_heaplet n -> va_update_mem_heaplet n sM sK \| Mod_stack -> va_update_stack sM sK \| Mod_stackTaint -> va_update_stackTaint sM sK [@va_qattr] let rec update_state_mods (mods:mods_t) (sM sK:vale_state) : vale_state = match mods with \| [] -> sK \| m::mods -> update_state_mod m sM (update_state_mods mods sM sK) [@va_qattr] unfold let update_state_mods_norm (mods:mods_t) (sM sK:vale_state) : vale_state = norm [iota; zeta; delta_attr [`%qmodattr]; delta_only [`%update_state_mods; `%update_state_mod]] (update_state_mods mods sM sK) let va_lemma_norm_mods (mods:mods_t) (sM sK:vale_state) : Lemma (ensures update_state_mods mods sM sK == update_state_mods_norm mods sM sK) = () [@va_qattr qmodattr] let va_mod_dst_opr64 (o:operand64) : mod_t = match o with \| OConst n -> Mod_None \| OReg r -> Mod_reg (Reg 0 r) \| OMem _ -> Mod_None // TODO: support destination memory operands \| OStack _ -> Mod_None // TODO: support destination stack operands	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	o: Vale.X64.Decls.reg_operand -> Vale.X64.QuickCode.mod_t	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Decls.reg_operand", "Vale.X64.Machine_s.reg_64", "Vale.X64.QuickCode.Mod_reg", "Vale.X64.Machine_s.Reg", "Vale.X64.QuickCode.mod_t" ]	[]	false	false	false	true	false	let va_mod_reg_opr64 (o: reg_operand) : mod_t =	match o with \| OReg r -> Mod_reg (Reg 0 r)	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.va_quickCode		val va_quickCode : a: Type0 -> _: Vale.X64.Machine_s.precode Vale.X64.Decls.ins Vale.X64.Decls.ocmp -> Type	let va_quickCode = quickCode	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 35, "end_line": 127, "start_col": 7, "start_line": 127 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t [@va_qattr] unfold let va_Mod_None = Mod_None [@va_qattr] unfold let va_Mod_ok = Mod_ok [@va_qattr] unfold let va_Mod_reg64 (r:reg_64) = Mod_reg (Reg 0 r) [@va_qattr] unfold let va_Mod_xmm (r:reg_xmm) = Mod_reg (Reg 1 r) [@va_qattr] unfold let va_Mod_flags = Mod_flags [@va_qattr] unfold let va_Mod_mem = Mod_mem [@va_qattr] unfold let va_Mod_mem_layout = Mod_mem_layout [@va_qattr] unfold let va_Mod_mem_heaplet (n:heaplet_id) = Mod_mem_heaplet n [@va_qattr] unfold let va_Mod_stack = Mod_stack [@va_qattr] unfold let va_Mod_stackTaint = Mod_stackTaint [@va_qattr "opaque_to_smt"] let mod_eq (x y:mod_t) : Pure bool (requires True) (ensures fun b -> b == (x = y)) = match x with \| Mod_None -> (match y with Mod_None -> true \| _ -> false) \| Mod_ok -> (match y with Mod_ok -> true \| _ -> false) \| Mod_reg rx -> (match y with Mod_reg ry -> rx = ry \| _ -> false) \| Mod_flags -> (match y with Mod_flags -> true \| _ -> false) \| Mod_mem -> (match y with Mod_mem -> true \| _ -> false) \| Mod_mem_layout -> (match y with Mod_mem_layout -> true \| _ -> false) \| Mod_mem_heaplet nx -> (match y with Mod_mem_heaplet ny -> nx = ny \| _ -> false) \| Mod_stack -> (match y with Mod_stack -> true \| _ -> false) \| Mod_stackTaint -> (match y with Mod_stackTaint -> true \| _ -> false) [@va_qattr] let update_state_mod (m:mod_t) (sM sK:vale_state) : vale_state = match m with \| Mod_None -> sK \| Mod_ok -> va_update_ok sM sK \| Mod_reg r -> update_register r sM sK \| Mod_flags -> va_update_flags sM sK \| Mod_mem -> va_update_mem sM sK \| Mod_mem_layout -> va_update_mem_layout sM sK \| Mod_mem_heaplet n -> va_update_mem_heaplet n sM sK \| Mod_stack -> va_update_stack sM sK \| Mod_stackTaint -> va_update_stackTaint sM sK [@va_qattr] let rec update_state_mods (mods:mods_t) (sM sK:vale_state) : vale_state = match mods with \| [] -> sK \| m::mods -> update_state_mod m sM (update_state_mods mods sM sK) [@va_qattr] unfold let update_state_mods_norm (mods:mods_t) (sM sK:vale_state) : vale_state = norm [iota; zeta; delta_attr [`%qmodattr]; delta_only [`%update_state_mods; `%update_state_mod]] (update_state_mods mods sM sK) let va_lemma_norm_mods (mods:mods_t) (sM sK:vale_state) : Lemma (ensures update_state_mods mods sM sK == update_state_mods_norm mods sM sK) = () [@va_qattr qmodattr] let va_mod_dst_opr64 (o:operand64) : mod_t = match o with \| OConst n -> Mod_None \| OReg r -> Mod_reg (Reg 0 r) \| OMem _ -> Mod_None // TODO: support destination memory operands \| OStack _ -> Mod_None // TODO: support destination stack operands [@va_qattr qmodattr] let va_mod_reg_opr64 (o:reg_operand) : mod_t = match o with \| OReg r -> Mod_reg (Reg 0 r) [@va_qattr qmodattr] let va_mod_xmm (x:reg_xmm) : mod_t = Mod_reg (Reg 1 x) [@va_qattr qmodattr] let va_mod_heaplet (h:heaplet_id) : mod_t = Mod_mem_heaplet h let quickProc_wp (a:Type0) : Type u#1 = (s0:vale_state) -> (wp_continue:vale_state -> a -> Type0) -> Type0 let k_true (#a:Type0) (_:vale_state) (_:a) = True let t_monotone (#a:Type0) (c:va_code) (wp:quickProc_wp a) : Type = s0:vale_state -> k1:(vale_state -> a -> Type0) -> k2:(vale_state -> a -> Type0) -> Lemma (requires (forall (s:vale_state) (g:a). k1 s g ==> k2 s g)) (ensures wp s0 k1 ==> wp s0 k2) let t_compute (#a:Type0) (c:va_code) (wp:quickProc_wp a) : Type = s0:vale_state -> Ghost (vale_state & va_fuel & a) (requires wp s0 k_true) (ensures fun _ -> True) let t_require (s0:va_state) = state_inv s0 unfold let va_t_require = t_require let va_t_ensure (#a:Type0) (c:va_code) (mods:mods_t) (s0:vale_state) (k:(vale_state -> a -> Type0)) = fun (sM, f0, g) -> eval_code c s0 f0 sM /\ update_state_mods mods sM s0 == sM /\ state_inv sM /\ k sM g let t_proof (#a:Type0) (c:va_code) (mods:mods_t) (wp:quickProc_wp a) : Type = s0:vale_state -> k:(vale_state -> a -> Type0) -> Ghost (vale_state & va_fuel & a) (requires t_require s0 /\ wp s0 k) (ensures va_t_ensure c mods s0 k) // Code that returns a ghost value of type a [@va_qattr] noeq type quickCode (a:Type0) : va_code -> Type = \| QProc: c:va_code -> mods:mods_t -> wp:quickProc_wp a -> proof:t_proof c mods wp -> quickCode a c	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	a: Type0 -> _: Vale.X64.Machine_s.precode Vale.X64.Decls.ins Vale.X64.Decls.ocmp -> Type	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.QuickCode.quickCode" ]	[]	false	false	false	true	true	let va_quickCode =	quickCode	false
Hacl.Bignum64.fst	Hacl.Bignum64.mod_precomp	val mod_precomp: len:Ghost.erased _ -> BS.bn_mod_slow_ctx_st t_limbs len	val mod_precomp: len:Ghost.erased _ -> BS.bn_mod_slow_ctx_st t_limbs len	let mod_precomp len k a res = let len1 = MA.bn_field_get_len k in BS.bn_mod_ctx len (bn_slow_precomp len1) k a res	{ "file_name": "code/bignum/Hacl.Bignum64.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 50, "end_line": 65, "start_col": 0, "start_line": 63 }	module Hacl.Bignum64 open FStar.Mul module BN = Hacl.Bignum module BE = Hacl.Bignum.Exponentiation module BR = Hacl.Bignum.ModReduction module AM = Hacl.Bignum.AlmostMontgomery module MA = Hacl.Bignum.MontArithmetic module BI = Hacl.Bignum.ModInv module BM = Hacl.Bignum.Montgomery #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" inline_for_extraction noextract let kam (len:BN.meta_len t_limbs) = AM.mk_runtime_almost_mont #t_limbs len inline_for_extraction noextract let ke (len:BN.meta_len t_limbs) = BE.mk_runtime_exp #t_limbs len let add len a b res = (ke len).BE.bn.BN.add a b res let sub len a b res = (ke len).BE.bn.BN.sub a b res let add_mod len n a b res = (ke len).BE.bn.BN.add_mod_n n a b res let sub_mod len n a b res = (ke len).BE.bn.BN.sub_mod_n n a b res let mul len a b res = (ke len).BE.bn.BN.mul a b res let sqr len a res = (ke len).BE.bn.BN.sqr a res [@CInline] let bn_slow_precomp (len:BN.meta_len t_limbs) : BR.bn_mod_slow_precomp_st t_limbs len = BR.bn_mod_slow_precomp (kam len) let mod len n a res = BS.mk_bn_mod_slow_safe len (BR.mk_bn_mod_slow len (kam len).AM.precomp (bn_slow_precomp len)) n a res let mod_exp_vartime len n a bBits b res = BS.mk_bn_mod_exp_safe len (ke len).BE.exp_check (ke len).BE.exp_vt n a bBits b res let mod_exp_consttime len n a bBits b res = BS.mk_bn_mod_exp_safe len (ke len).BE.exp_check (ke len).BE.exp_ct n a bBits b res let mod_inv_prime_vartime len n a res = BS.mk_bn_mod_inv_prime_safe len (ke len).BE.exp_vt n a res let mont_ctx_init len r n = MA.bn_field_init len (ke len).BE.precompr2 r n let mont_ctx_free k = MA.bn_field_free k	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "Hacl.Bignum.Montgomery.fsti.checked", "Hacl.Bignum.MontArithmetic.fsti.checked", "Hacl.Bignum.ModReduction.fst.checked", "Hacl.Bignum.ModInv.fst.checked", "Hacl.Bignum.Exponentiation.fsti.checked", "Hacl.Bignum.Convert.fst.checked", "Hacl.Bignum.AlmostMontgomery.fsti.checked", "Hacl.Bignum.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Hacl.Bignum64.fst" }	[ { "abbrev": true, "full_module": "Hacl.Bignum.Montgomery", "short_module": "BM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModInv", "short_module": "BI" }, { "abbrev": true, "full_module": "Hacl.Bignum.AlmostMontgomery", "short_module": "AM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModReduction", "short_module": "BR" }, { "abbrev": true, "full_module": "Hacl.Bignum.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Hacl.Bignum.MontArithmetic", "short_module": "MA" }, { "abbrev": true, "full_module": "Hacl.Bignum.SafeAPI", "short_module": "BS" }, { "abbrev": true, "full_module": "Hacl.Bignum", "short_module": "BN" }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	len: FStar.Ghost.erased (Hacl.Bignum.meta_len Hacl.Bignum64.t_limbs) -> Hacl.Bignum.SafeAPI.bn_mod_slow_ctx_st Hacl.Bignum64.t_limbs (FStar.Ghost.reveal len)	Prims.Tot	[ "total" ]	[]	[ "FStar.Ghost.erased", "Hacl.Bignum.meta_len", "Hacl.Bignum64.t_limbs", "Hacl.Bignum.MontArithmetic.pbn_mont_ctx", "Hacl.Bignum.Definitions.lbignum", "Lib.IntTypes.op_Plus_Bang", "Lib.IntTypes.U32", "Lib.IntTypes.PUB", "FStar.Ghost.reveal", "Hacl.Bignum.SafeAPI.bn_mod_ctx", "Hacl.Bignum64.bn_slow_precomp", "Prims.unit", "Hacl.Bignum.MontArithmetic.bn_field_get_len" ]	[]	false	false	false	false	false	let mod_precomp len k a res =	let len1 = MA.bn_field_get_len k in BS.bn_mod_ctx len (bn_slow_precomp len1) k a res	false
Effects.Def.fst	Effects.Def.eq_st		val eq_st : a: Type -> x: Effects.Def.st a -> y: Effects.Def.st a -> Prims.logical	let eq_st (a:Type) (x:st a) (y:st a) = is_restricted s x /\ is_restricted s y /\ feq x y	{ "file_name": "examples/dm4free/Effects.Def.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 88, "end_line": 86, "start_col": 0, "start_line": 86 }	(* Copyright 2008-2018 Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) ( This module defines 4 monads arranged in a partial order stexn ^ ^ / \ st exn \ / v v exnst Proving the monad laws for each point and the morphism laws for each edge. ) module Effects.Def open FStar.FunctionalExtensionality //proving the laws requires feq //A generic template for proving the monad laws, via some equivalence relation eq_m let eq_m (m:Type -> Type) = eq:(a:Type -> m a -> m a -> Type){forall a x y. eq a x y ==> x == y} let eq_m_aux (#m : Type->Type) (e : eq_m m) (#a : Type) (x y : m a) : Lemma (requires (e _ x y)) (ensures (x == y)) = () val monad_laws_via_eq: m:(Type -> Type) -> eq:eq_m m -> return:(a:Type -> x:a -> Tot (m a)) -> bind:(a:Type -> b:Type -> m a -> (a -> Tot (m b)) -> Tot (m b)) -> Lemma (requires (forall (a:Type) (f:m a). eq a (bind a a f (return a)) f) /\ (forall (a:Type) (b:Type) (x:a) (f:a -> Tot (m b)). eq b (bind a b (return a x) f) (f x)) /\ (forall (a:Type) (b:Type) (c:Type) (f:m a) (g:(a -> Tot (m b))) (h:(b -> Tot (m c))). eq c (bind a c f (fun x -> bind b c (g x) h)) (bind b c (bind a b f g) h))) (ensures (forall (a:Type) (f:m a). bind a a f (return a) == f) //right unit /\ (forall (a:Type) (b:Type) (x:a) (f:a -> Tot (m b)). bind a b (return a x) f == f x) //left unit /\ (forall (a:Type) (b:Type) (c:Type) (f:m a) (g:(a -> Tot (m b))) (h:(b -> Tot (m c))). //associativity bind a c f (fun x -> bind b c (g x) h) == bind b c (bind a b f g) h)) let monad_laws_via_eq m eq return bind = let lem (a:Type) (f:m a) : Lemma (bind a a f (return a) == f) [SMTPat (bind a a f (return a))] = assert (bind a a f (return a) `eq a` f); eq_m_aux eq (bind a a f (return a)) f; // GM: ^ Unsure why Z3 doesn't figure this out on its own // instead of needing this lemma call. That's the only // reason this inner lemma exists. assert (bind a a f (return a) == f) in () //A generic template for proving the monad morphism laws, via some equivalence relation eq_m val morphism_laws_via_eq: m:(Type -> Type) -> n:(Type -> Type) -> eq_n:eq_m n -> return_m:(a:Type -> x:a -> Tot (m a)) -> bind_m:(a:Type -> b:Type -> m a -> (a -> Tot (m b)) -> Tot (m b)) -> return_n:(a:Type -> x:a -> Tot (n a)) -> bind_n:(a:Type -> b:Type -> n a -> (a -> Tot (n b)) -> Tot (n b)) -> lift:(a:Type -> m a -> Tot (n a)) -> Lemma (requires (forall (a:Type) (x:a). eq_n a (lift a (return_m a x)) (return_n a x)) /\ (forall (a:Type) (b:Type) (f:m a) (g: a -> Tot (m b)). eq_n b (lift b (bind_m a b f g)) (bind_n a b (lift a f) (fun x -> lift b (g x))))) (ensures (forall (a:Type) (x:a). lift a (return_m a x) == return_n a x) //lift-unit /\ (forall (a:Type) (b:Type) (f:m a) (g: a -> Tot (m b)). lift b (bind_m a b f g) == bind_n a b (lift a f) (fun x -> lift b (g x)))) //lift-bind #set-options "--initial_fuel 0 --max_fuel 0 --initial_ifuel 0 --max_ifuel 0 --z3rlimit 100" let morphism_laws_via_eq m n eqn return_m bind_m return_n bind_n lift = () #reset-options ( *****************************************************************************) ( Effect (st a) : A state monad over an abstract state type s ) ( *****************************************************************************) assume type s : Type //an abstract type of the state let st (a:Type) = restricted_t s (fun _ -> a s)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.FunctionalExtensionality.fsti.checked" ], "interface_file": false, "source_file": "Effects.Def.fst" }	[ { "abbrev": false, "full_module": "FStar.FunctionalExtensionality //proving the laws requires feq", "short_module": null }, { "abbrev": false, "full_module": "FStar.FunctionalExtensionality", "short_module": null }, { "abbrev": false, "full_module": "Effects", "short_module": null }, { "abbrev": false, "full_module": "Effects", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	a: Type -> x: Effects.Def.st a -> y: Effects.Def.st a -> Prims.logical	Prims.Tot	[ "total" ]	[]	[ "Effects.Def.st", "Prims.l_and", "FStar.FunctionalExtensionality.is_restricted", "Effects.Def.s", "FStar.Pervasives.Native.tuple2", "FStar.FunctionalExtensionality.feq", "Prims.logical" ]	[]	false	false	false	true	true	let eq_st (a: Type) (x y: st a) =	is_restricted s x /\ is_restricted s y /\ feq x y	false
Vale.PPC64LE.InsVector.fst	Vale.PPC64LE.InsVector.va_wpProof_Vpmsumd	val va_wpProof_Vpmsumd : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vpmsumd dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpmsumd dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	val va_wpProof_Vpmsumd : dst:va_operand_vec_opr -> src1:va_operand_vec_opr -> src2:va_operand_vec_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0) -> Ghost (va_state & va_fuel & unit) (requires (va_t_require va_s0 /\ va_wp_Vpmsumd dst src1 src2 va_s0 va_k)) (ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Vpmsumd dst src1 src2) ([va_mod_vec_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))	let va_wpProof_Vpmsumd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vpmsumd (va_code_Vpmsumd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	{ "file_name": "obj/Vale.PPC64LE.InsVector.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 22, "end_line": 1230, "start_col": 0, "start_line": 1224 }	module Vale.PPC64LE.InsVector open Vale.Def.Types_s open Vale.PPC64LE.Machine_s open Vale.PPC64LE.State open Vale.PPC64LE.Decls open Spec.Hash.Definitions open Spec.SHA2 friend Vale.PPC64LE.Decls module S = Vale.PPC64LE.Semantics_s #reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 50" //-- Vmr [@ "opaque_to_smt"] let va_code_Vmr dst src = (Ins (S.Vmr dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vmr dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmr va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vmr) (va_code_Vmr dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmr dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmr dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmr dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmr (va_code_Vmr dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrd [@ "opaque_to_smt"] let va_code_Mfvsrd dst src = (Ins (S.Mfvsrd dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrd dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrd va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrd) (va_code_Mfvsrd dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrd dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrd dst src)) va_s0 in Vale.Arch.Types.hi64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrd dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrd (va_code_Mfvsrd dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mfvsrld [@ "opaque_to_smt"] let va_code_Mfvsrld dst src = (Ins (S.Mfvsrld dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mfvsrld dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mfvsrld va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mfvsrld) (va_code_Mfvsrld dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mfvsrld dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mfvsrld dst src)) va_s0 in Vale.Arch.Types.lo64_reveal (); (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mfvsrld dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mfvsrld (va_code_Mfvsrld dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrdd [@ "opaque_to_smt"] let va_code_Mtvsrdd dst src1 src2 = (Ins (S.Mtvsrdd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrdd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrdd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Mtvsrdd) (va_code_Mtvsrdd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrdd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrdd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrdd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrdd (va_code_Mtvsrdd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Mtvsrws [@ "opaque_to_smt"] let va_code_Mtvsrws dst src = (Ins (S.Mtvsrws dst src)) [@ "opaque_to_smt"] let va_codegen_success_Mtvsrws dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Mtvsrws va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Mtvsrws) (va_code_Mtvsrws dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Mtvsrws dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Mtvsrws dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Mtvsrws dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Mtvsrws (va_code_Mtvsrws dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vadduwm [@ "opaque_to_smt"] let va_code_Vadduwm dst src1 src2 = (Ins (S.Vadduwm dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vadduwm dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vadduwm va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vadduwm) (va_code_Vadduwm dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vadduwm dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vadduwm dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vadduwm dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vadduwm (va_code_Vadduwm dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vxor [@ "opaque_to_smt"] let va_code_Vxor dst src1 src2 = (Ins (S.Vxor dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vxor dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vxor va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vxor) (va_code_Vxor dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vxor dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vxor dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vxor dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vxor (va_code_Vxor dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vand [@ "opaque_to_smt"] let va_code_Vand dst src1 src2 = (Ins (S.Vand dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vand dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vand va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vand) (va_code_Vand dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vand dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vand dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vand dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vand (va_code_Vand dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vslw [@ "opaque_to_smt"] let va_code_Vslw dst src1 src2 = (Ins (S.Vslw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vslw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vslw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vslw) (va_code_Vslw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vslw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vslw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vslw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vslw (va_code_Vslw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsrw [@ "opaque_to_smt"] let va_code_Vsrw dst src1 src2 = (Ins (S.Vsrw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsrw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsrw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsrw) (va_code_Vsrw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsrw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsrw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsrw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsrw (va_code_Vsrw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsl [@ "opaque_to_smt"] let va_code_Vsl dst src1 src2 = (Ins (S.Vsl dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vsl dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsl va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vsl) (va_code_Vsl dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsl dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsl dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsl dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsl (va_code_Vsl dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcmpequw [@ "opaque_to_smt"] let va_code_Vcmpequw dst src1 src2 = (Ins (S.Vcmpequw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcmpequw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcmpequw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcmpequw) (va_code_Vcmpequw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcmpequw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcmpequw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcmpequw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcmpequw (va_code_Vcmpequw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsldoi [@ "opaque_to_smt"] let va_code_Vsldoi dst src1 src2 count = (Ins (S.Vsldoi dst src1 src2 count)) [@ "opaque_to_smt"] let va_codegen_success_Vsldoi dst src1 src2 count = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsldoi va_b0 va_s0 dst src1 src2 count = va_reveal_opaque (`%va_code_Vsldoi) (va_code_Vsldoi dst src1 src2 count); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsldoi dst src1 src2 count)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsldoi dst src1 src2 count)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsldoi dst src1 src2 count va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsldoi (va_code_Vsldoi dst src1 src2 count) va_s0 dst src1 src2 count in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vmrghw [@ "opaque_to_smt"] let va_code_Vmrghw dst src1 src2 = (Ins (S.Vmrghw dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vmrghw dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vmrghw va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vmrghw) (va_code_Vmrghw dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vmrghw dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vmrghw dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vmrghw dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vmrghw (va_code_Vmrghw dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Xxmrghd [@ "opaque_to_smt"] let va_code_Xxmrghd dst src1 src2 = (Ins (S.Xxmrghd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Xxmrghd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Xxmrghd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Xxmrghd) (va_code_Xxmrghd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Xxmrghd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Xxmrghd dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Xxmrghd dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Xxmrghd (va_code_Xxmrghd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsel [@ "opaque_to_smt"] let va_code_Vsel dst src1 src2 sel = (Ins (S.Vsel dst src1 src2 sel)) [@ "opaque_to_smt"] let va_codegen_success_Vsel dst src1 src2 sel = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsel va_b0 va_s0 dst src1 src2 sel = va_reveal_opaque (`%va_code_Vsel) (va_code_Vsel dst src1 src2 sel); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsel dst src1 src2 sel)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsel dst src1 src2 sel)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsel dst src1 src2 sel va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsel (va_code_Vsel dst src1 src2 sel) va_s0 dst src1 src2 sel in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltw [@ "opaque_to_smt"] let va_code_Vspltw dst src uim = (Ins (S.Vspltw dst src uim)) [@ "opaque_to_smt"] let va_codegen_success_Vspltw dst src uim = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltw va_b0 va_s0 dst src uim = va_reveal_opaque (`%va_code_Vspltw) (va_code_Vspltw dst src uim); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltw dst src uim)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltw dst src uim)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltw dst src uim va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltw (va_code_Vspltw dst src uim) va_s0 dst src uim in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisw [@ "opaque_to_smt"] let va_code_Vspltisw dst src = (Ins (S.Vspltisw dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisw dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisw va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisw) (va_code_Vspltisw dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisw dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisw dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisw dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisw (va_code_Vspltisw dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vspltisb [@ "opaque_to_smt"] let va_code_Vspltisb dst src = (Ins (S.Vspltisb dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vspltisb dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vspltisb va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vspltisb) (va_code_Vspltisb dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vspltisb dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vspltisb dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vspltisb dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vspltisb (va_code_Vspltisb dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_buffer [@ "opaque_to_smt"] let va_code_Load128_buffer h dst base offset t = (Ins (S.Load128 dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_buffer h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_buffer va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_buffer) (va_code_Load128_buffer h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128 dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128 dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_buffer h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_buffer (va_code_Load128_buffer h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_buffer [@ "opaque_to_smt"] let va_code_Store128_buffer h src base offset t = (Ins (S.Store128 src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_buffer h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_buffer va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_buffer) (va_code_Store128_buffer h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128 src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128 src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (va_eval_vec_opr va_old_s src) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_buffer h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_buffer (va_code_Store128_buffer h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer [@ "opaque_to_smt"] let va_code_Load128_word4_buffer h dst base t = (Ins (S.Load128Word4 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer) (va_code_Load128_word4_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer (va_code_Load128_word4_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Load128_word4_buffer_index h dst base offset t = (Ins (S.Load128Word4Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_word4_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_word4_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_word4_buffer_index) (va_code_Load128_word4_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Word4Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Word4Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_word4_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_word4_buffer_index (va_code_Load128_word4_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer [@ "opaque_to_smt"] let va_code_Store128_word4_buffer h src base t = (Ins (S.Store128Word4 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer) (va_code_Store128_word4_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer (va_code_Store128_word4_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_word4_buffer_index [@ "opaque_to_smt"] let va_code_Store128_word4_buffer_index h src base offset t = (Ins (S.Store128Word4Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_word4_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_word4_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_word4_buffer_index) (va_code_Store128_word4_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Word4Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Word4Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 (Vale.Def.Words_s.__proj__Mkfour__item__hi3 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__hi2 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo1 (va_eval_vec_opr va_old_s src)) (Vale.Def.Words_s.__proj__Mkfour__item__lo0 (va_eval_vec_opr va_old_s src))) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_word4_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_word4_buffer_index (va_code_Store128_word4_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer h dst base t = (Ins (S.Load128Byte16 dst base)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer h dst base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer va_b0 va_s0 h dst base t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer) (va_code_Load128_byte16_buffer h dst base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16 dst base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16 dst base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer h dst base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer (va_code_Load128_byte16_buffer h dst base t) va_s0 h dst base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Load128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Load128_byte16_buffer_index h dst base offset t = (Ins (S.Load128Byte16Index dst base offset)) [@ "opaque_to_smt"] let va_codegen_success_Load128_byte16_buffer_index h dst base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Load128_byte16_buffer_index va_b0 va_s0 h dst base offset t b index = va_reveal_opaque (`%va_code_Load128_byte16_buffer_index) (va_code_Load128_byte16_buffer_index h dst base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Load128Byte16Index dst base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Load128Byte16Index dst base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_load_mem128_full b index (Vale.PPC64LE.Decls.from_heap_impl (va_sM.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Load128_byte16_buffer_index h dst base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Load128_byte16_buffer_index (va_code_Load128_byte16_buffer_index h dst base offset t) va_s0 h dst base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer h src base t = (Ins (S.Store128Byte16 src base)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer h src base t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer va_b0 va_s0 h src base t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer) (va_code_Store128_byte16_buffer h src base t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16 src base)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16 src base)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer h src base t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer (va_code_Store128_byte16_buffer h src base t) va_s0 h src base t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Store128_byte16_buffer_index [@ "opaque_to_smt"] let va_code_Store128_byte16_buffer_index h src base offset t = (Ins (S.Store128Byte16Index src base offset)) [@ "opaque_to_smt"] let va_codegen_success_Store128_byte16_buffer_index h src base offset t = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Store128_byte16_buffer_index va_b0 va_s0 h src base offset t b index = va_reveal_opaque (`%va_code_Store128_byte16_buffer_index) (va_code_Store128_byte16_buffer_index h src base offset t); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Store128Byte16Index src base offset)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Store128Byte16Index src base offset)) va_s0 in Vale.PPC64LE.Memory_Sems.low_lemma_store_mem128_full b index (Vale.Def.Types_s.reverse_bytes_quad32 (va_eval_vec_opr va_old_s src)) (Vale.PPC64LE.Decls.from_heap_impl (va_old_s.ms_heap)) t h; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Store128_byte16_buffer_index h src base offset t b index va_s0 va_k = let (va_sM, va_f0) = va_lemma_Store128_byte16_buffer_index (va_code_Store128_byte16_buffer_index h src base offset t) va_s0 h src base offset t b index in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_mem va_sM (va_update_ok va_sM (va_update_operand_heaplet h va_sM va_s0)))); va_lemma_norm_mods ([va_Mod_mem; va_mod_heaplet h]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma0 [@ "opaque_to_smt"] let va_code_SHA256_sigma0 dst src = (Ins (S.Vshasigmaw0 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma0 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma0) (va_code_SHA256_sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw0 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw0 dst src)) va_s0 in lemma_sha256_sigma0 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma0 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma0 (va_code_SHA256_sigma0 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_sigma1 [@ "opaque_to_smt"] let va_code_SHA256_sigma1 dst src = (Ins (S.Vshasigmaw1 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_sigma1 va_b0 va_s0 dst src t block = va_reveal_opaque (`%va_code_SHA256_sigma1) (va_code_SHA256_sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw1 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw1 dst src)) va_s0 in lemma_sha256_sigma1 (va_eval_vec_opr va_old_s src) t block; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_sigma1 dst src t block va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_sigma1 (va_code_SHA256_sigma1 dst src) va_s0 dst src t block in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma0 [@ "opaque_to_smt"] let va_code_SHA256_Sigma0 dst src = (Ins (S.Vshasigmaw2 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma0 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma0 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma0) (va_code_SHA256_Sigma0 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw2 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw2 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma2 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma0 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma0 (va_code_SHA256_Sigma0 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- SHA256_Sigma1 [@ "opaque_to_smt"] let va_code_SHA256_Sigma1 dst src = (Ins (S.Vshasigmaw3 dst src)) [@ "opaque_to_smt"] let va_codegen_success_SHA256_Sigma1 dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_SHA256_Sigma1 va_b0 va_s0 dst src t block hash_orig = va_reveal_opaque (`%va_code_SHA256_Sigma1) (va_code_SHA256_Sigma1 dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vshasigmaw3 dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vshasigmaw3 dst src)) va_s0 in Vale.SHA.PPC64LE.SHA_helpers.lemma_sha256_sigma3 (va_eval_vec_opr va_old_s src) t block hash_orig; (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_SHA256_Sigma1 dst src t block hash_orig va_s0 va_k = let (va_sM, va_f0) = va_lemma_SHA256_Sigma1 (va_code_SHA256_Sigma1 dst src) va_s0 dst src t block hash_orig in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vsbox [@ "opaque_to_smt"] let va_code_Vsbox dst src = (Ins (S.Vsbox dst src)) [@ "opaque_to_smt"] let va_codegen_success_Vsbox dst src = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vsbox va_b0 va_s0 dst src = va_reveal_opaque (`%va_code_Vsbox) (va_code_Vsbox dst src); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vsbox dst src)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vsbox dst src)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vsbox dst src va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vsbox (va_code_Vsbox dst src) va_s0 dst src in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- RotWord [@ "opaque_to_smt"] let va_code_RotWord dst src1 src2 = (Ins (S.RotWord dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_RotWord dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_RotWord va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_RotWord) (va_code_RotWord dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.RotWord dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.RotWord dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_RotWord dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_RotWord (va_code_RotWord dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipher [@ "opaque_to_smt"] let va_code_Vcipher dst src1 src2 = (Ins (S.Vcipher dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcipher dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcipher va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcipher) (va_code_Vcipher dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcipher dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcipher dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcipher dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcipher (va_code_Vcipher dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vcipherlast [@ "opaque_to_smt"] let va_code_Vcipherlast dst src1 src2 = (Ins (S.Vcipherlast dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vcipherlast dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vcipherlast va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vcipherlast) (va_code_Vcipherlast dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vcipherlast dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vcipherlast dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vcipherlast dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vcipherlast (va_code_Vcipherlast dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vncipher [@ "opaque_to_smt"] let va_code_Vncipher dst src1 src2 = (Ins (S.Vncipher dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vncipher dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vncipher va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vncipher) (va_code_Vncipher dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vncipher dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vncipher dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vncipher dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vncipher (va_code_Vncipher dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vncipherlast [@ "opaque_to_smt"] let va_code_Vncipherlast dst src1 src2 = (Ins (S.Vncipherlast dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vncipherlast dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vncipherlast va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vncipherlast) (va_code_Vncipherlast dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vncipherlast dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vncipherlast dst src1 src2)) va_s0 in (va_sM, va_fM) [@"opaque_to_smt"] let va_wpProof_Vncipherlast dst src1 src2 va_s0 va_k = let (va_sM, va_f0) = va_lemma_Vncipherlast (va_code_Vncipherlast dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g) //-- //-- Vpmsumd [@ "opaque_to_smt"] let va_code_Vpmsumd dst src1 src2 = (Ins (S.Vpmsumd dst src1 src2)) [@ "opaque_to_smt"] let va_codegen_success_Vpmsumd dst src1 src2 = (va_ttrue ()) [@"opaque_to_smt"] let va_lemma_Vpmsumd va_b0 va_s0 dst src1 src2 = va_reveal_opaque (`%va_code_Vpmsumd) (va_code_Vpmsumd dst src1 src2); let (va_old_s:va_state) = va_s0 in va_ins_lemma (Ins (S.Vpmsumd dst src1 src2)) va_s0; let (va_sM, va_fM) = va_eval_ins (Ins (S.Vpmsumd dst src1 src2)) va_s0 in (va_sM, va_fM)	{ "checked_file": "/", "dependencies": [ "Vale.SHA.PPC64LE.SHA_helpers.fsti.checked", "Vale.PPC64LE.State.fsti.checked", "Vale.PPC64LE.Semantics_s.fst.checked", "Vale.PPC64LE.Memory_Sems.fsti.checked", "Vale.PPC64LE.Machine_s.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.PPC64LE.Decls.fst.checked", "Vale.Def.Words_s.fsti.checked", "Vale.Def.Types_s.fst.checked", "Vale.Arch.Types.fsti.checked", "Spec.SHA2.fsti.checked", "Spec.Hash.Definitions.fst.checked", "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked" ], "interface_file": true, "source_file": "Vale.PPC64LE.InsVector.fst" }	[ { "abbrev": true, "full_module": "Vale.PPC64LE.Semantics_s", "short_module": "S" }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2.Bits_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Math.Poly2_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.AES.AES_BE_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.SHA.PPC64LE.SHA_helpers", "short_module": null }, { "abbrev": false, "full_module": "Spec.Hash.Definitions", "short_module": null }, { "abbrev": false, "full_module": "Spec.SHA2", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Sel", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Memory", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsMem", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.InsBasic", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.QuickCode", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Types_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Four_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words.Two_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Words_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "FStar.Seq", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "Vale.PPC64LE", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 4, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> src1: Vale.PPC64LE.Decls.va_operand_vec_opr -> src2: Vale.PPC64LE.Decls.va_operand_vec_opr -> va_s0: Vale.PPC64LE.Decls.va_state -> va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0) -> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit)	Prims.Ghost	[]	[]	[ "Vale.PPC64LE.Decls.va_operand_vec_opr", "Vale.PPC64LE.Decls.va_state", "Prims.unit", "Vale.PPC64LE.Decls.va_fuel", "FStar.Pervasives.Native.Mktuple3", "Vale.PPC64LE.QuickCode.va_lemma_norm_mods", "Prims.Cons", "Vale.PPC64LE.QuickCode.mod_t", "Vale.PPC64LE.QuickCode.va_mod_vec_opr", "Prims.Nil", "Prims._assert", "Vale.PPC64LE.Decls.va_state_eq", "Vale.PPC64LE.Decls.va_update_ok", "Vale.PPC64LE.Decls.va_update_operand_vec_opr", "Vale.PPC64LE.Decls.va_lemma_upd_update", "FStar.Pervasives.Native.tuple3", "FStar.Pervasives.Native.tuple2", "Vale.PPC64LE.Machine_s.state", "Vale.PPC64LE.InsVector.va_lemma_Vpmsumd", "Vale.PPC64LE.InsVector.va_code_Vpmsumd" ]	[]	false	false	false	false	false	let va_wpProof_Vpmsumd dst src1 src2 va_s0 va_k =	let va_sM, va_f0 = va_lemma_Vpmsumd (va_code_Vpmsumd dst src1 src2) va_s0 dst src1 src2 in va_lemma_upd_update va_sM; assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0))); va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0; let va_g = () in (va_sM, va_f0, va_g)	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.va_mod_dst_opr64	val va_mod_dst_opr64 (o: operand64) : mod_t	val va_mod_dst_opr64 (o: operand64) : mod_t	let va_mod_dst_opr64 (o:operand64) : mod_t = match o with \| OConst n -> Mod_None \| OReg r -> Mod_reg (Reg 0 r) \| OMem _ -> Mod_None // TODO: support destination memory operands \| OStack _ -> Mod_None	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 24, "end_line": 81, "start_col": 0, "start_line": 76 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t [@va_qattr] unfold let va_Mod_None = Mod_None [@va_qattr] unfold let va_Mod_ok = Mod_ok [@va_qattr] unfold let va_Mod_reg64 (r:reg_64) = Mod_reg (Reg 0 r) [@va_qattr] unfold let va_Mod_xmm (r:reg_xmm) = Mod_reg (Reg 1 r) [@va_qattr] unfold let va_Mod_flags = Mod_flags [@va_qattr] unfold let va_Mod_mem = Mod_mem [@va_qattr] unfold let va_Mod_mem_layout = Mod_mem_layout [@va_qattr] unfold let va_Mod_mem_heaplet (n:heaplet_id) = Mod_mem_heaplet n [@va_qattr] unfold let va_Mod_stack = Mod_stack [@va_qattr] unfold let va_Mod_stackTaint = Mod_stackTaint [@va_qattr "opaque_to_smt"] let mod_eq (x y:mod_t) : Pure bool (requires True) (ensures fun b -> b == (x = y)) = match x with \| Mod_None -> (match y with Mod_None -> true \| _ -> false) \| Mod_ok -> (match y with Mod_ok -> true \| _ -> false) \| Mod_reg rx -> (match y with Mod_reg ry -> rx = ry \| _ -> false) \| Mod_flags -> (match y with Mod_flags -> true \| _ -> false) \| Mod_mem -> (match y with Mod_mem -> true \| _ -> false) \| Mod_mem_layout -> (match y with Mod_mem_layout -> true \| _ -> false) \| Mod_mem_heaplet nx -> (match y with Mod_mem_heaplet ny -> nx = ny \| _ -> false) \| Mod_stack -> (match y with Mod_stack -> true \| _ -> false) \| Mod_stackTaint -> (match y with Mod_stackTaint -> true \| _ -> false) [@va_qattr] let update_state_mod (m:mod_t) (sM sK:vale_state) : vale_state = match m with \| Mod_None -> sK \| Mod_ok -> va_update_ok sM sK \| Mod_reg r -> update_register r sM sK \| Mod_flags -> va_update_flags sM sK \| Mod_mem -> va_update_mem sM sK \| Mod_mem_layout -> va_update_mem_layout sM sK \| Mod_mem_heaplet n -> va_update_mem_heaplet n sM sK \| Mod_stack -> va_update_stack sM sK \| Mod_stackTaint -> va_update_stackTaint sM sK [@va_qattr] let rec update_state_mods (mods:mods_t) (sM sK:vale_state) : vale_state = match mods with \| [] -> sK \| m::mods -> update_state_mod m sM (update_state_mods mods sM sK) [@va_qattr] unfold let update_state_mods_norm (mods:mods_t) (sM sK:vale_state) : vale_state = norm [iota; zeta; delta_attr [`%qmodattr]; delta_only [`%update_state_mods; `%update_state_mod]] (update_state_mods mods sM sK) let va_lemma_norm_mods (mods:mods_t) (sM sK:vale_state) : Lemma (ensures update_state_mods mods sM sK == update_state_mods_norm mods sM sK) = ()	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	o: Vale.X64.Machine_s.operand64 -> Vale.X64.QuickCode.mod_t	Prims.Tot	[ "total" ]	[]	[ "Vale.X64.Machine_s.operand64", "Vale.X64.Machine_s.nat64", "Vale.X64.QuickCode.Mod_None", "Vale.X64.Machine_s.reg_64", "Vale.X64.QuickCode.Mod_reg", "Vale.X64.Machine_s.Reg", "Vale.X64.Machine_s.tmaddr", "Vale.X64.QuickCode.mod_t" ]	[]	false	false	false	true	false	let va_mod_dst_opr64 (o: operand64) : mod_t =	match o with \| OConst n -> Mod_None \| OReg r -> Mod_reg (Reg 0 r) \| OMem _ -> Mod_None \| OStack _ -> Mod_None	false
Vale.X64.QuickCode.fst	Vale.X64.QuickCode.mod_eq	val mod_eq (x y: mod_t) : Pure bool (requires True) (ensures fun b -> b == (x = y))	val mod_eq (x y: mod_t) : Pure bool (requires True) (ensures fun b -> b == (x = y))	let mod_eq (x y:mod_t) : Pure bool (requires True) (ensures fun b -> b == (x = y)) = match x with \| Mod_None -> (match y with Mod_None -> true \| _ -> false) \| Mod_ok -> (match y with Mod_ok -> true \| _ -> false) \| Mod_reg rx -> (match y with Mod_reg ry -> rx = ry \| _ -> false) \| Mod_flags -> (match y with Mod_flags -> true \| _ -> false) \| Mod_mem -> (match y with Mod_mem -> true \| _ -> false) \| Mod_mem_layout -> (match y with Mod_mem_layout -> true \| _ -> false) \| Mod_mem_heaplet nx -> (match y with Mod_mem_heaplet ny -> nx = ny \| _ -> false) \| Mod_stack -> (match y with Mod_stack -> true \| _ -> false) \| Mod_stackTaint -> (match y with Mod_stackTaint -> true \| _ -> false)	{ "file_name": "vale/code/arch/x64/Vale.X64.QuickCode.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 72, "end_line": 46, "start_col": 0, "start_line": 36 }	module Vale.X64.QuickCode open FStar.Mul open Vale.Def.Prop_s open Vale.X64.Machine_s open Vale.Arch.HeapImpl open Vale.X64.State open Vale.X64.Decls irreducible let qmodattr = () type mod_t = \| Mod_None : mod_t \| Mod_ok: mod_t \| Mod_reg: reg -> mod_t \| Mod_flags: mod_t \| Mod_mem: mod_t \| Mod_mem_layout: mod_t \| Mod_mem_heaplet: heaplet_id -> mod_t \| Mod_stack: mod_t \| Mod_stackTaint: mod_t unfold let mods_t = list mod_t unfold let va_mods_t = mods_t [@va_qattr] unfold let va_Mod_None = Mod_None [@va_qattr] unfold let va_Mod_ok = Mod_ok [@va_qattr] unfold let va_Mod_reg64 (r:reg_64) = Mod_reg (Reg 0 r) [@va_qattr] unfold let va_Mod_xmm (r:reg_xmm) = Mod_reg (Reg 1 r) [@va_qattr] unfold let va_Mod_flags = Mod_flags [@va_qattr] unfold let va_Mod_mem = Mod_mem [@va_qattr] unfold let va_Mod_mem_layout = Mod_mem_layout [@va_qattr] unfold let va_Mod_mem_heaplet (n:heaplet_id) = Mod_mem_heaplet n [@va_qattr] unfold let va_Mod_stack = Mod_stack [@va_qattr] unfold let va_Mod_stackTaint = Mod_stackTaint	{ "checked_file": "/", "dependencies": [ "Vale.X64.State.fsti.checked", "Vale.X64.Machine_s.fst.checked", "Vale.X64.Decls.fsti.checked", "Vale.Def.Prop_s.fst.checked", "Vale.Arch.HeapImpl.fsti.checked", "prims.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": false, "source_file": "Vale.X64.QuickCode.fst" }	[ { "abbrev": false, "full_module": "Vale.X64.Decls", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.State", "short_module": null }, { "abbrev": false, "full_module": "Vale.Arch.HeapImpl", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64.Machine_s", "short_module": null }, { "abbrev": false, "full_module": "Vale.Def.Prop_s", "short_module": null }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "Vale.X64", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 0, "max_fuel": 1, "max_ifuel": 1, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": true, "smtencoding_l_arith_repr": "native", "smtencoding_nl_arith_repr": "wrapped", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [ "smt.arith.nl=false", "smt.QI.EAGER_THRESHOLD=100", "smt.CASE_SPLIT=3" ], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	x: Vale.X64.QuickCode.mod_t -> y: Vale.X64.QuickCode.mod_t -> Prims.Pure Prims.bool	Prims.Pure	[]	[]	[ "Vale.X64.QuickCode.mod_t", "Prims.bool", "Vale.X64.Machine_s.reg", "Prims.op_Equality", "Vale.X64.Decls.heaplet_id", "Prims.l_True", "Prims.eq2" ]	[]	false	false	false	false	false	let mod_eq (x y: mod_t) : Pure bool (requires True) (ensures fun b -> b == (x = y)) =	match x with \| Mod_None -> (match y with \| Mod_None -> true \| _ -> false) \| Mod_ok -> (match y with \| Mod_ok -> true \| _ -> false) \| Mod_reg rx -> (match y with \| Mod_reg ry -> rx = ry \| _ -> false) \| Mod_flags -> (match y with \| Mod_flags -> true \| _ -> false) \| Mod_mem -> (match y with \| Mod_mem -> true \| _ -> false) \| Mod_mem_layout -> (match y with \| Mod_mem_layout -> true \| _ -> false) \| Mod_mem_heaplet nx -> (match y with \| Mod_mem_heaplet ny -> nx = ny \| _ -> false) \| Mod_stack -> (match y with \| Mod_stack -> true \| _ -> false) \| Mod_stackTaint -> (match y with \| Mod_stackTaint -> true \| _ -> false)	false
Effects.Def.fst	Effects.Def.ex		val ex : a: Type -> Type	let ex (a:Type) = restricted_t unit (fun _ -> option a)	{ "file_name": "examples/dm4free/Effects.Def.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 55, "end_line": 104, "start_col": 0, "start_line": 104 }	(* Copyright 2008-2018 Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) ( This module defines 4 monads arranged in a partial order stexn ^ ^ / \ st exn \ / v v exnst Proving the monad laws for each point and the morphism laws for each edge. ) module Effects.Def open FStar.FunctionalExtensionality //proving the laws requires feq //A generic template for proving the monad laws, via some equivalence relation eq_m let eq_m (m:Type -> Type) = eq:(a:Type -> m a -> m a -> Type){forall a x y. eq a x y ==> x == y} let eq_m_aux (#m : Type->Type) (e : eq_m m) (#a : Type) (x y : m a) : Lemma (requires (e _ x y)) (ensures (x == y)) = () val monad_laws_via_eq: m:(Type -> Type) -> eq:eq_m m -> return:(a:Type -> x:a -> Tot (m a)) -> bind:(a:Type -> b:Type -> m a -> (a -> Tot (m b)) -> Tot (m b)) -> Lemma (requires (forall (a:Type) (f:m a). eq a (bind a a f (return a)) f) /\ (forall (a:Type) (b:Type) (x:a) (f:a -> Tot (m b)). eq b (bind a b (return a x) f) (f x)) /\ (forall (a:Type) (b:Type) (c:Type) (f:m a) (g:(a -> Tot (m b))) (h:(b -> Tot (m c))). eq c (bind a c f (fun x -> bind b c (g x) h)) (bind b c (bind a b f g) h))) (ensures (forall (a:Type) (f:m a). bind a a f (return a) == f) //right unit /\ (forall (a:Type) (b:Type) (x:a) (f:a -> Tot (m b)). bind a b (return a x) f == f x) //left unit /\ (forall (a:Type) (b:Type) (c:Type) (f:m a) (g:(a -> Tot (m b))) (h:(b -> Tot (m c))). //associativity bind a c f (fun x -> bind b c (g x) h) == bind b c (bind a b f g) h)) let monad_laws_via_eq m eq return bind = let lem (a:Type) (f:m a) : Lemma (bind a a f (return a) == f) [SMTPat (bind a a f (return a))] = assert (bind a a f (return a) `eq a` f); eq_m_aux eq (bind a a f (return a)) f; // GM: ^ Unsure why Z3 doesn't figure this out on its own // instead of needing this lemma call. That's the only // reason this inner lemma exists. assert (bind a a f (return a) == f) in () //A generic template for proving the monad morphism laws, via some equivalence relation eq_m val morphism_laws_via_eq: m:(Type -> Type) -> n:(Type -> Type) -> eq_n:eq_m n -> return_m:(a:Type -> x:a -> Tot (m a)) -> bind_m:(a:Type -> b:Type -> m a -> (a -> Tot (m b)) -> Tot (m b)) -> return_n:(a:Type -> x:a -> Tot (n a)) -> bind_n:(a:Type -> b:Type -> n a -> (a -> Tot (n b)) -> Tot (n b)) -> lift:(a:Type -> m a -> Tot (n a)) -> Lemma (requires (forall (a:Type) (x:a). eq_n a (lift a (return_m a x)) (return_n a x)) /\ (forall (a:Type) (b:Type) (f:m a) (g: a -> Tot (m b)). eq_n b (lift b (bind_m a b f g)) (bind_n a b (lift a f) (fun x -> lift b (g x))))) (ensures (forall (a:Type) (x:a). lift a (return_m a x) == return_n a x) //lift-unit /\ (forall (a:Type) (b:Type) (f:m a) (g: a -> Tot (m b)). lift b (bind_m a b f g) == bind_n a b (lift a f) (fun x -> lift b (g x)))) //lift-bind #set-options "--initial_fuel 0 --max_fuel 0 --initial_ifuel 0 --max_ifuel 0 --z3rlimit 100" let morphism_laws_via_eq m n eqn return_m bind_m return_n bind_n lift = () #reset-options ( *****************************************************************************) ( Effect (st a) : A state monad over an abstract state type s ) ( *****************************************************************************) assume type s : Type //an abstract type of the state let st (a:Type) = restricted_t s (fun _ -> a s) let eq_st (a:Type) (x:st a) (y:st a) = is_restricted s x /\ is_restricted s y /\ feq x y //extensional equality on st let return_st (a:Type) (x:a) : st a = on_dom s (fun s -> (x, s)) let bind_st (a:Type) (b:Type) (f:st a) (g: a -> Tot (st b)) : st b = on_dom s (fun s0 -> let x, s1 = f s0 in g x s1) //Two actions: get and put let get (u:unit) : st s = on_dom s (fun s -> s, s) let put (x:s) : st unit = on_dom s (fun _ -> (), x) let st_laws = monad_laws_via_eq st eq_st return_st bind_st (* *****************************************************************************) ( Effect (ex a) : A state monad over an abstract state type s *)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.FunctionalExtensionality.fsti.checked" ], "interface_file": false, "source_file": "Effects.Def.fst" }	[ { "abbrev": false, "full_module": "FStar.FunctionalExtensionality //proving the laws requires feq", "short_module": null }, { "abbrev": false, "full_module": "FStar.FunctionalExtensionality", "short_module": null }, { "abbrev": false, "full_module": "Effects", "short_module": null }, { "abbrev": false, "full_module": "Effects", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	a: Type -> Type	Prims.Tot	[ "total" ]	[]	[ "FStar.FunctionalExtensionality.restricted_t", "Prims.unit", "FStar.Pervasives.Native.option" ]	[]	false	false	false	true	true	let ex (a: Type) =	restricted_t unit (fun _ -> option a)	false
Effects.Def.fst	Effects.Def.eq_ex		val eq_ex : a: Type -> x: Effects.Def.ex a -> y: Effects.Def.ex a -> Prims.logical	let eq_ex (a:Type) (x:ex a) (y:ex a) = is_restricted unit x /\ is_restricted unit y /\ feq x y	{ "file_name": "examples/dm4free/Effects.Def.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 94, "end_line": 106, "start_col": 0, "start_line": 106 }	(* Copyright 2008-2018 Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) ( This module defines 4 monads arranged in a partial order stexn ^ ^ / \ st exn \ / v v exnst Proving the monad laws for each point and the morphism laws for each edge. ) module Effects.Def open FStar.FunctionalExtensionality //proving the laws requires feq //A generic template for proving the monad laws, via some equivalence relation eq_m let eq_m (m:Type -> Type) = eq:(a:Type -> m a -> m a -> Type){forall a x y. eq a x y ==> x == y} let eq_m_aux (#m : Type->Type) (e : eq_m m) (#a : Type) (x y : m a) : Lemma (requires (e _ x y)) (ensures (x == y)) = () val monad_laws_via_eq: m:(Type -> Type) -> eq:eq_m m -> return:(a:Type -> x:a -> Tot (m a)) -> bind:(a:Type -> b:Type -> m a -> (a -> Tot (m b)) -> Tot (m b)) -> Lemma (requires (forall (a:Type) (f:m a). eq a (bind a a f (return a)) f) /\ (forall (a:Type) (b:Type) (x:a) (f:a -> Tot (m b)). eq b (bind a b (return a x) f) (f x)) /\ (forall (a:Type) (b:Type) (c:Type) (f:m a) (g:(a -> Tot (m b))) (h:(b -> Tot (m c))). eq c (bind a c f (fun x -> bind b c (g x) h)) (bind b c (bind a b f g) h))) (ensures (forall (a:Type) (f:m a). bind a a f (return a) == f) //right unit /\ (forall (a:Type) (b:Type) (x:a) (f:a -> Tot (m b)). bind a b (return a x) f == f x) //left unit /\ (forall (a:Type) (b:Type) (c:Type) (f:m a) (g:(a -> Tot (m b))) (h:(b -> Tot (m c))). //associativity bind a c f (fun x -> bind b c (g x) h) == bind b c (bind a b f g) h)) let monad_laws_via_eq m eq return bind = let lem (a:Type) (f:m a) : Lemma (bind a a f (return a) == f) [SMTPat (bind a a f (return a))] = assert (bind a a f (return a) `eq a` f); eq_m_aux eq (bind a a f (return a)) f; // GM: ^ Unsure why Z3 doesn't figure this out on its own // instead of needing this lemma call. That's the only // reason this inner lemma exists. assert (bind a a f (return a) == f) in () //A generic template for proving the monad morphism laws, via some equivalence relation eq_m val morphism_laws_via_eq: m:(Type -> Type) -> n:(Type -> Type) -> eq_n:eq_m n -> return_m:(a:Type -> x:a -> Tot (m a)) -> bind_m:(a:Type -> b:Type -> m a -> (a -> Tot (m b)) -> Tot (m b)) -> return_n:(a:Type -> x:a -> Tot (n a)) -> bind_n:(a:Type -> b:Type -> n a -> (a -> Tot (n b)) -> Tot (n b)) -> lift:(a:Type -> m a -> Tot (n a)) -> Lemma (requires (forall (a:Type) (x:a). eq_n a (lift a (return_m a x)) (return_n a x)) /\ (forall (a:Type) (b:Type) (f:m a) (g: a -> Tot (m b)). eq_n b (lift b (bind_m a b f g)) (bind_n a b (lift a f) (fun x -> lift b (g x))))) (ensures (forall (a:Type) (x:a). lift a (return_m a x) == return_n a x) //lift-unit /\ (forall (a:Type) (b:Type) (f:m a) (g: a -> Tot (m b)). lift b (bind_m a b f g) == bind_n a b (lift a f) (fun x -> lift b (g x)))) //lift-bind #set-options "--initial_fuel 0 --max_fuel 0 --initial_ifuel 0 --max_ifuel 0 --z3rlimit 100" let morphism_laws_via_eq m n eqn return_m bind_m return_n bind_n lift = () #reset-options ( *****************************************************************************) ( Effect (st a) : A state monad over an abstract state type s ) ( *****************************************************************************) assume type s : Type //an abstract type of the state let st (a:Type) = restricted_t s (fun _ -> a s) let eq_st (a:Type) (x:st a) (y:st a) = is_restricted s x /\ is_restricted s y /\ feq x y //extensional equality on st let return_st (a:Type) (x:a) : st a = on_dom s (fun s -> (x, s)) let bind_st (a:Type) (b:Type) (f:st a) (g: a -> Tot (st b)) : st b = on_dom s (fun s0 -> let x, s1 = f s0 in g x s1) //Two actions: get and put let get (u:unit) : st s = on_dom s (fun s -> s, s) let put (x:s) : st unit = on_dom s (fun _ -> (), x) let st_laws = monad_laws_via_eq st eq_st return_st bind_st (* *****************************************************************************) ( Effect (ex a) : A state monad over an abstract state type s ) ( ******************************************************************************) let ex (a:Type) = restricted_t unit (fun _ -> option a)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.FunctionalExtensionality.fsti.checked" ], "interface_file": false, "source_file": "Effects.Def.fst" }	[ { "abbrev": false, "full_module": "FStar.FunctionalExtensionality //proving the laws requires feq", "short_module": null }, { "abbrev": false, "full_module": "FStar.FunctionalExtensionality", "short_module": null }, { "abbrev": false, "full_module": "Effects", "short_module": null }, { "abbrev": false, "full_module": "Effects", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	a: Type -> x: Effects.Def.ex a -> y: Effects.Def.ex a -> Prims.logical	Prims.Tot	[ "total" ]	[]	[ "Effects.Def.ex", "Prims.l_and", "FStar.FunctionalExtensionality.is_restricted", "Prims.unit", "FStar.Pervasives.Native.option", "FStar.FunctionalExtensionality.feq", "Prims.logical" ]	[]	false	false	false	true	true	let eq_ex (a: Type) (x y: ex a) =	is_restricted unit x /\ is_restricted unit y /\ feq x y	false
Effects.Def.fst	Effects.Def.stexn		val stexn : a: Type -> Type	let stexn (a:Type) = restricted_t s (fun _ -> (option a * s))	{ "file_name": "examples/dm4free/Effects.Def.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 61, "end_line": 135, "start_col": 0, "start_line": 135 }	(* Copyright 2008-2018 Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) ( This module defines 4 monads arranged in a partial order stexn ^ ^ / \ st exn \ / v v exnst Proving the monad laws for each point and the morphism laws for each edge. ) module Effects.Def open FStar.FunctionalExtensionality //proving the laws requires feq //A generic template for proving the monad laws, via some equivalence relation eq_m let eq_m (m:Type -> Type) = eq:(a:Type -> m a -> m a -> Type){forall a x y. eq a x y ==> x == y} let eq_m_aux (#m : Type->Type) (e : eq_m m) (#a : Type) (x y : m a) : Lemma (requires (e _ x y)) (ensures (x == y)) = () val monad_laws_via_eq: m:(Type -> Type) -> eq:eq_m m -> return:(a:Type -> x:a -> Tot (m a)) -> bind:(a:Type -> b:Type -> m a -> (a -> Tot (m b)) -> Tot (m b)) -> Lemma (requires (forall (a:Type) (f:m a). eq a (bind a a f (return a)) f) /\ (forall (a:Type) (b:Type) (x:a) (f:a -> Tot (m b)). eq b (bind a b (return a x) f) (f x)) /\ (forall (a:Type) (b:Type) (c:Type) (f:m a) (g:(a -> Tot (m b))) (h:(b -> Tot (m c))). eq c (bind a c f (fun x -> bind b c (g x) h)) (bind b c (bind a b f g) h))) (ensures (forall (a:Type) (f:m a). bind a a f (return a) == f) //right unit /\ (forall (a:Type) (b:Type) (x:a) (f:a -> Tot (m b)). bind a b (return a x) f == f x) //left unit /\ (forall (a:Type) (b:Type) (c:Type) (f:m a) (g:(a -> Tot (m b))) (h:(b -> Tot (m c))). //associativity bind a c f (fun x -> bind b c (g x) h) == bind b c (bind a b f g) h)) let monad_laws_via_eq m eq return bind = let lem (a:Type) (f:m a) : Lemma (bind a a f (return a) == f) [SMTPat (bind a a f (return a))] = assert (bind a a f (return a) `eq a` f); eq_m_aux eq (bind a a f (return a)) f; // GM: ^ Unsure why Z3 doesn't figure this out on its own // instead of needing this lemma call. That's the only // reason this inner lemma exists. assert (bind a a f (return a) == f) in () //A generic template for proving the monad morphism laws, via some equivalence relation eq_m val morphism_laws_via_eq: m:(Type -> Type) -> n:(Type -> Type) -> eq_n:eq_m n -> return_m:(a:Type -> x:a -> Tot (m a)) -> bind_m:(a:Type -> b:Type -> m a -> (a -> Tot (m b)) -> Tot (m b)) -> return_n:(a:Type -> x:a -> Tot (n a)) -> bind_n:(a:Type -> b:Type -> n a -> (a -> Tot (n b)) -> Tot (n b)) -> lift:(a:Type -> m a -> Tot (n a)) -> Lemma (requires (forall (a:Type) (x:a). eq_n a (lift a (return_m a x)) (return_n a x)) /\ (forall (a:Type) (b:Type) (f:m a) (g: a -> Tot (m b)). eq_n b (lift b (bind_m a b f g)) (bind_n a b (lift a f) (fun x -> lift b (g x))))) (ensures (forall (a:Type) (x:a). lift a (return_m a x) == return_n a x) //lift-unit /\ (forall (a:Type) (b:Type) (f:m a) (g: a -> Tot (m b)). lift b (bind_m a b f g) == bind_n a b (lift a f) (fun x -> lift b (g x)))) //lift-bind #set-options "--initial_fuel 0 --max_fuel 0 --initial_ifuel 0 --max_ifuel 0 --z3rlimit 100" let morphism_laws_via_eq m n eqn return_m bind_m return_n bind_n lift = () #reset-options ( *****************************************************************************) ( Effect (st a) : A state monad over an abstract state type s ) ( *****************************************************************************) assume type s : Type //an abstract type of the state let st (a:Type) = restricted_t s (fun _ -> a s) let eq_st (a:Type) (x:st a) (y:st a) = is_restricted s x /\ is_restricted s y /\ feq x y //extensional equality on st let return_st (a:Type) (x:a) : st a = on_dom s (fun s -> (x, s)) let bind_st (a:Type) (b:Type) (f:st a) (g: a -> Tot (st b)) : st b = on_dom s (fun s0 -> let x, s1 = f s0 in g x s1) //Two actions: get and put let get (u:unit) : st s = on_dom s (fun s -> s, s) let put (x:s) : st unit = on_dom s (fun _ -> (), x) let st_laws = monad_laws_via_eq st eq_st return_st bind_st (* *****************************************************************************) ( Effect (ex a) : A state monad over an abstract state type s ) ( *****************************************************************************) let ex (a:Type) = restricted_t unit (fun _ -> option a) let eq_ex (a:Type) (x:ex a) (y:ex a) = is_restricted unit x /\ is_restricted unit y /\ feq x y //extensional equality on ex let return_ex (a:Type) (x:a) : ex a = on_dom unit (fun _ -> Some x) let bind_ex (a:Type) (b:Type) (f:ex a) (g: a -> Tot (ex b)) : ex b = on_dom unit (fun _ -> match f () with \| None -> None \| Some x -> g x ()) //one action: raise let raise_ (#a:Type) : ex a = on_dom unit (fun () -> None) //and a handler let handle (#a:Type) (f:ex a) (g:unit -> Tot a) : Tot a = match f () with \| None -> g() \| Some x -> x let ex_laws = monad_laws_via_eq ex eq_ex return_ex bind_ex ( *****************************************************************************) ( Effect (stexn a) : A combined monad, exceptions over state *)	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.FunctionalExtensionality.fsti.checked" ], "interface_file": false, "source_file": "Effects.Def.fst" }	[ { "abbrev": false, "full_module": "FStar.FunctionalExtensionality //proving the laws requires feq", "short_module": null }, { "abbrev": false, "full_module": "FStar.FunctionalExtensionality", "short_module": null }, { "abbrev": false, "full_module": "Effects", "short_module": null }, { "abbrev": false, "full_module": "Effects", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	a: Type -> Type	Prims.Tot	[ "total" ]	[]	[ "FStar.FunctionalExtensionality.restricted_t", "Effects.Def.s", "FStar.Pervasives.Native.tuple2", "FStar.Pervasives.Native.option" ]	[]	false	false	false	true	true	let stexn (a: Type) =	restricted_t s (fun _ -> (option a * s))	false
Effects.Def.fst	Effects.Def.raise_	val raise_ (#a: Type) : ex a	val raise_ (#a: Type) : ex a	let raise_ (#a:Type) : ex a = on_dom unit (fun () -> None)	{ "file_name": "examples/dm4free/Effects.Def.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 32, "end_line": 121, "start_col": 0, "start_line": 119 }	(* Copyright 2008-2018 Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) ( This module defines 4 monads arranged in a partial order stexn ^ ^ / \ st exn \ / v v exnst Proving the monad laws for each point and the morphism laws for each edge. ) module Effects.Def open FStar.FunctionalExtensionality //proving the laws requires feq //A generic template for proving the monad laws, via some equivalence relation eq_m let eq_m (m:Type -> Type) = eq:(a:Type -> m a -> m a -> Type){forall a x y. eq a x y ==> x == y} let eq_m_aux (#m : Type->Type) (e : eq_m m) (#a : Type) (x y : m a) : Lemma (requires (e _ x y)) (ensures (x == y)) = () val monad_laws_via_eq: m:(Type -> Type) -> eq:eq_m m -> return:(a:Type -> x:a -> Tot (m a)) -> bind:(a:Type -> b:Type -> m a -> (a -> Tot (m b)) -> Tot (m b)) -> Lemma (requires (forall (a:Type) (f:m a). eq a (bind a a f (return a)) f) /\ (forall (a:Type) (b:Type) (x:a) (f:a -> Tot (m b)). eq b (bind a b (return a x) f) (f x)) /\ (forall (a:Type) (b:Type) (c:Type) (f:m a) (g:(a -> Tot (m b))) (h:(b -> Tot (m c))). eq c (bind a c f (fun x -> bind b c (g x) h)) (bind b c (bind a b f g) h))) (ensures (forall (a:Type) (f:m a). bind a a f (return a) == f) //right unit /\ (forall (a:Type) (b:Type) (x:a) (f:a -> Tot (m b)). bind a b (return a x) f == f x) //left unit /\ (forall (a:Type) (b:Type) (c:Type) (f:m a) (g:(a -> Tot (m b))) (h:(b -> Tot (m c))). //associativity bind a c f (fun x -> bind b c (g x) h) == bind b c (bind a b f g) h)) let monad_laws_via_eq m eq return bind = let lem (a:Type) (f:m a) : Lemma (bind a a f (return a) == f) [SMTPat (bind a a f (return a))] = assert (bind a a f (return a) `eq a` f); eq_m_aux eq (bind a a f (return a)) f; // GM: ^ Unsure why Z3 doesn't figure this out on its own // instead of needing this lemma call. That's the only // reason this inner lemma exists. assert (bind a a f (return a) == f) in () //A generic template for proving the monad morphism laws, via some equivalence relation eq_m val morphism_laws_via_eq: m:(Type -> Type) -> n:(Type -> Type) -> eq_n:eq_m n -> return_m:(a:Type -> x:a -> Tot (m a)) -> bind_m:(a:Type -> b:Type -> m a -> (a -> Tot (m b)) -> Tot (m b)) -> return_n:(a:Type -> x:a -> Tot (n a)) -> bind_n:(a:Type -> b:Type -> n a -> (a -> Tot (n b)) -> Tot (n b)) -> lift:(a:Type -> m a -> Tot (n a)) -> Lemma (requires (forall (a:Type) (x:a). eq_n a (lift a (return_m a x)) (return_n a x)) /\ (forall (a:Type) (b:Type) (f:m a) (g: a -> Tot (m b)). eq_n b (lift b (bind_m a b f g)) (bind_n a b (lift a f) (fun x -> lift b (g x))))) (ensures (forall (a:Type) (x:a). lift a (return_m a x) == return_n a x) //lift-unit /\ (forall (a:Type) (b:Type) (f:m a) (g: a -> Tot (m b)). lift b (bind_m a b f g) == bind_n a b (lift a f) (fun x -> lift b (g x)))) //lift-bind #set-options "--initial_fuel 0 --max_fuel 0 --initial_ifuel 0 --max_ifuel 0 --z3rlimit 100" let morphism_laws_via_eq m n eqn return_m bind_m return_n bind_n lift = () #reset-options ( *****************************************************************************) ( Effect (st a) : A state monad over an abstract state type s ) ( *****************************************************************************) assume type s : Type //an abstract type of the state let st (a:Type) = restricted_t s (fun _ -> a s) let eq_st (a:Type) (x:st a) (y:st a) = is_restricted s x /\ is_restricted s y /\ feq x y //extensional equality on st let return_st (a:Type) (x:a) : st a = on_dom s (fun s -> (x, s)) let bind_st (a:Type) (b:Type) (f:st a) (g: a -> Tot (st b)) : st b = on_dom s (fun s0 -> let x, s1 = f s0 in g x s1) //Two actions: get and put let get (u:unit) : st s = on_dom s (fun s -> s, s) let put (x:s) : st unit = on_dom s (fun _ -> (), x) let st_laws = monad_laws_via_eq st eq_st return_st bind_st (* *****************************************************************************) ( Effect (ex a) : A state monad over an abstract state type s ) ( ******************************************************************************) let ex (a:Type) = restricted_t unit (fun _ -> option a) let eq_ex (a:Type) (x:ex a) (y:ex a) = is_restricted unit x /\ is_restricted unit y /\ feq x y //extensional equality on ex let return_ex (a:Type) (x:a) : ex a = on_dom unit (fun _ -> Some x) let bind_ex (a:Type) (b:Type) (f:ex a) (g: a -> Tot (ex b)) : ex b = on_dom unit (fun _ -> match f () with \| None -> None \| Some x -> g x ())	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.FunctionalExtensionality.fsti.checked" ], "interface_file": false, "source_file": "Effects.Def.fst" }	[ { "abbrev": false, "full_module": "FStar.FunctionalExtensionality //proving the laws requires feq", "short_module": null }, { "abbrev": false, "full_module": "FStar.FunctionalExtensionality", "short_module": null }, { "abbrev": false, "full_module": "Effects", "short_module": null }, { "abbrev": false, "full_module": "Effects", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	Effects.Def.ex a	Prims.Tot	[ "total" ]	[]	[ "FStar.FunctionalExtensionality.on_dom", "Prims.unit", "FStar.Pervasives.Native.option", "FStar.Pervasives.Native.None", "Effects.Def.ex" ]	[]	false	false	false	true	false	let raise_ (#a: Type) : ex a =	on_dom unit (fun () -> None)	false
Effects.Def.fst	Effects.Def.eq_stexn		val eq_stexn : a: Type -> x: Effects.Def.stexn a -> y: Effects.Def.stexn a -> Prims.logical	let eq_stexn (a:Type) (x:stexn a) (y:stexn a) = is_restricted s x /\ is_restricted s y /\ feq x y	{ "file_name": "examples/dm4free/Effects.Def.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 97, "end_line": 137, "start_col": 0, "start_line": 137 }	(* Copyright 2008-2018 Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) ( This module defines 4 monads arranged in a partial order stexn ^ ^ / \ st exn \ / v v exnst Proving the monad laws for each point and the morphism laws for each edge. ) module Effects.Def open FStar.FunctionalExtensionality //proving the laws requires feq //A generic template for proving the monad laws, via some equivalence relation eq_m let eq_m (m:Type -> Type) = eq:(a:Type -> m a -> m a -> Type){forall a x y. eq a x y ==> x == y} let eq_m_aux (#m : Type->Type) (e : eq_m m) (#a : Type) (x y : m a) : Lemma (requires (e _ x y)) (ensures (x == y)) = () val monad_laws_via_eq: m:(Type -> Type) -> eq:eq_m m -> return:(a:Type -> x:a -> Tot (m a)) -> bind:(a:Type -> b:Type -> m a -> (a -> Tot (m b)) -> Tot (m b)) -> Lemma (requires (forall (a:Type) (f:m a). eq a (bind a a f (return a)) f) /\ (forall (a:Type) (b:Type) (x:a) (f:a -> Tot (m b)). eq b (bind a b (return a x) f) (f x)) /\ (forall (a:Type) (b:Type) (c:Type) (f:m a) (g:(a -> Tot (m b))) (h:(b -> Tot (m c))). eq c (bind a c f (fun x -> bind b c (g x) h)) (bind b c (bind a b f g) h))) (ensures (forall (a:Type) (f:m a). bind a a f (return a) == f) //right unit /\ (forall (a:Type) (b:Type) (x:a) (f:a -> Tot (m b)). bind a b (return a x) f == f x) //left unit /\ (forall (a:Type) (b:Type) (c:Type) (f:m a) (g:(a -> Tot (m b))) (h:(b -> Tot (m c))). //associativity bind a c f (fun x -> bind b c (g x) h) == bind b c (bind a b f g) h)) let monad_laws_via_eq m eq return bind = let lem (a:Type) (f:m a) : Lemma (bind a a f (return a) == f) [SMTPat (bind a a f (return a))] = assert (bind a a f (return a) `eq a` f); eq_m_aux eq (bind a a f (return a)) f; // GM: ^ Unsure why Z3 doesn't figure this out on its own // instead of needing this lemma call. That's the only // reason this inner lemma exists. assert (bind a a f (return a) == f) in () //A generic template for proving the monad morphism laws, via some equivalence relation eq_m val morphism_laws_via_eq: m:(Type -> Type) -> n:(Type -> Type) -> eq_n:eq_m n -> return_m:(a:Type -> x:a -> Tot (m a)) -> bind_m:(a:Type -> b:Type -> m a -> (a -> Tot (m b)) -> Tot (m b)) -> return_n:(a:Type -> x:a -> Tot (n a)) -> bind_n:(a:Type -> b:Type -> n a -> (a -> Tot (n b)) -> Tot (n b)) -> lift:(a:Type -> m a -> Tot (n a)) -> Lemma (requires (forall (a:Type) (x:a). eq_n a (lift a (return_m a x)) (return_n a x)) /\ (forall (a:Type) (b:Type) (f:m a) (g: a -> Tot (m b)). eq_n b (lift b (bind_m a b f g)) (bind_n a b (lift a f) (fun x -> lift b (g x))))) (ensures (forall (a:Type) (x:a). lift a (return_m a x) == return_n a x) //lift-unit /\ (forall (a:Type) (b:Type) (f:m a) (g: a -> Tot (m b)). lift b (bind_m a b f g) == bind_n a b (lift a f) (fun x -> lift b (g x)))) //lift-bind #set-options "--initial_fuel 0 --max_fuel 0 --initial_ifuel 0 --max_ifuel 0 --z3rlimit 100" let morphism_laws_via_eq m n eqn return_m bind_m return_n bind_n lift = () #reset-options ( *****************************************************************************) ( Effect (st a) : A state monad over an abstract state type s ) ( *****************************************************************************) assume type s : Type //an abstract type of the state let st (a:Type) = restricted_t s (fun _ -> a s) let eq_st (a:Type) (x:st a) (y:st a) = is_restricted s x /\ is_restricted s y /\ feq x y //extensional equality on st let return_st (a:Type) (x:a) : st a = on_dom s (fun s -> (x, s)) let bind_st (a:Type) (b:Type) (f:st a) (g: a -> Tot (st b)) : st b = on_dom s (fun s0 -> let x, s1 = f s0 in g x s1) //Two actions: get and put let get (u:unit) : st s = on_dom s (fun s -> s, s) let put (x:s) : st unit = on_dom s (fun _ -> (), x) let st_laws = monad_laws_via_eq st eq_st return_st bind_st (* *****************************************************************************) ( Effect (ex a) : A state monad over an abstract state type s ) ( *****************************************************************************) let ex (a:Type) = restricted_t unit (fun _ -> option a) let eq_ex (a:Type) (x:ex a) (y:ex a) = is_restricted unit x /\ is_restricted unit y /\ feq x y //extensional equality on ex let return_ex (a:Type) (x:a) : ex a = on_dom unit (fun _ -> Some x) let bind_ex (a:Type) (b:Type) (f:ex a) (g: a -> Tot (ex b)) : ex b = on_dom unit (fun _ -> match f () with \| None -> None \| Some x -> g x ()) //one action: raise let raise_ (#a:Type) : ex a = on_dom unit (fun () -> None) //and a handler let handle (#a:Type) (f:ex a) (g:unit -> Tot a) : Tot a = match f () with \| None -> g() \| Some x -> x let ex_laws = monad_laws_via_eq ex eq_ex return_ex bind_ex ( *****************************************************************************) ( Effect (stexn a) : A combined monad, exceptions over state ) ( *****************************************************************************) let stexn (a:Type) = restricted_t s (fun _ -> (option a s))	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.FunctionalExtensionality.fsti.checked" ], "interface_file": false, "source_file": "Effects.Def.fst" }	[ { "abbrev": false, "full_module": "FStar.FunctionalExtensionality //proving the laws requires feq", "short_module": null }, { "abbrev": false, "full_module": "FStar.FunctionalExtensionality", "short_module": null }, { "abbrev": false, "full_module": "Effects", "short_module": null }, { "abbrev": false, "full_module": "Effects", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	a: Type -> x: Effects.Def.stexn a -> y: Effects.Def.stexn a -> Prims.logical	Prims.Tot	[ "total" ]	[]	[ "Effects.Def.stexn", "Prims.l_and", "FStar.FunctionalExtensionality.is_restricted", "Effects.Def.s", "FStar.Pervasives.Native.tuple2", "FStar.Pervasives.Native.option", "FStar.FunctionalExtensionality.feq", "Prims.logical" ]	[]	false	false	false	true	true	let eq_stexn (a: Type) (x y: stexn a) =	is_restricted s x /\ is_restricted s y /\ feq x y	false
Hacl.Bignum64.fst	Hacl.Bignum64.mod_exp_vartime	val mod_exp_vartime: len:BN.meta_len t_limbs -> BS.bn_mod_exp_safe_st t_limbs len	val mod_exp_vartime: len:BN.meta_len t_limbs -> BS.bn_mod_exp_safe_st t_limbs len	let mod_exp_vartime len n a bBits b res = BS.mk_bn_mod_exp_safe len (ke len).BE.exp_check (ke len).BE.exp_vt n a bBits b res	{ "file_name": "code/bignum/Hacl.Bignum64.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 84, "end_line": 49, "start_col": 0, "start_line": 48 }	module Hacl.Bignum64 open FStar.Mul module BN = Hacl.Bignum module BE = Hacl.Bignum.Exponentiation module BR = Hacl.Bignum.ModReduction module AM = Hacl.Bignum.AlmostMontgomery module MA = Hacl.Bignum.MontArithmetic module BI = Hacl.Bignum.ModInv module BM = Hacl.Bignum.Montgomery #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" inline_for_extraction noextract let kam (len:BN.meta_len t_limbs) = AM.mk_runtime_almost_mont #t_limbs len inline_for_extraction noextract let ke (len:BN.meta_len t_limbs) = BE.mk_runtime_exp #t_limbs len let add len a b res = (ke len).BE.bn.BN.add a b res let sub len a b res = (ke len).BE.bn.BN.sub a b res let add_mod len n a b res = (ke len).BE.bn.BN.add_mod_n n a b res let sub_mod len n a b res = (ke len).BE.bn.BN.sub_mod_n n a b res let mul len a b res = (ke len).BE.bn.BN.mul a b res let sqr len a res = (ke len).BE.bn.BN.sqr a res [@CInline] let bn_slow_precomp (len:BN.meta_len t_limbs) : BR.bn_mod_slow_precomp_st t_limbs len = BR.bn_mod_slow_precomp (kam len) let mod len n a res = BS.mk_bn_mod_slow_safe len (BR.mk_bn_mod_slow len (kam len).AM.precomp (bn_slow_precomp len)) n a res	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "Hacl.Bignum.Montgomery.fsti.checked", "Hacl.Bignum.MontArithmetic.fsti.checked", "Hacl.Bignum.ModReduction.fst.checked", "Hacl.Bignum.ModInv.fst.checked", "Hacl.Bignum.Exponentiation.fsti.checked", "Hacl.Bignum.Convert.fst.checked", "Hacl.Bignum.AlmostMontgomery.fsti.checked", "Hacl.Bignum.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Hacl.Bignum64.fst" }	[ { "abbrev": true, "full_module": "Hacl.Bignum.Montgomery", "short_module": "BM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModInv", "short_module": "BI" }, { "abbrev": true, "full_module": "Hacl.Bignum.AlmostMontgomery", "short_module": "AM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModReduction", "short_module": "BR" }, { "abbrev": true, "full_module": "Hacl.Bignum.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Hacl.Bignum.MontArithmetic", "short_module": "MA" }, { "abbrev": true, "full_module": "Hacl.Bignum.SafeAPI", "short_module": "BS" }, { "abbrev": true, "full_module": "Hacl.Bignum", "short_module": "BN" }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	len: Hacl.Bignum.meta_len Hacl.Bignum64.t_limbs -> Hacl.Bignum.SafeAPI.bn_mod_exp_safe_st Hacl.Bignum64.t_limbs len	Prims.Tot	[ "total" ]	[]	[ "Hacl.Bignum.meta_len", "Hacl.Bignum64.t_limbs", "Hacl.Bignum.Definitions.lbignum", "Lib.IntTypes.size_t", "Prims.b2t", "Prims.op_LessThanOrEqual", "FStar.Mul.op_Star", "Lib.IntTypes.bits", "Lib.IntTypes.v", "Lib.IntTypes.U32", "Lib.IntTypes.PUB", "Hacl.Bignum.Definitions.blocks0", "Lib.IntTypes.size", "Lib.IntTypes.max_size_t", "Hacl.Bignum.SafeAPI.mk_bn_mod_exp_safe", "Hacl.Bignum.Exponentiation.__proj__Mkexp__item__exp_check", "Hacl.Bignum64.ke", "Hacl.Bignum.Exponentiation.__proj__Mkexp__item__exp_vt", "Prims.bool" ]	[]	false	false	false	false	false	let mod_exp_vartime len n a bBits b res =	BS.mk_bn_mod_exp_safe len (ke len).BE.exp_check (ke len).BE.exp_vt n a bBits b res	false
Hacl.Bignum64.fst	Hacl.Bignum64.mul	val mul: len:BN.meta_len t_limbs -> a:lbignum t_limbs len -> BN.bn_karatsuba_mul_st t_limbs len a	val mul: len:BN.meta_len t_limbs -> a:lbignum t_limbs len -> BN.bn_karatsuba_mul_st t_limbs len a	let mul len a b res = (ke len).BE.bn.BN.mul a b res	{ "file_name": "code/bignum/Hacl.Bignum64.fst", "git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872", "git_url": "https://github.com/project-everest/hacl-star.git", "project_name": "hacl-star" }	{ "end_col": 31, "end_line": 36, "start_col": 0, "start_line": 35 }	module Hacl.Bignum64 open FStar.Mul module BN = Hacl.Bignum module BE = Hacl.Bignum.Exponentiation module BR = Hacl.Bignum.ModReduction module AM = Hacl.Bignum.AlmostMontgomery module MA = Hacl.Bignum.MontArithmetic module BI = Hacl.Bignum.ModInv module BM = Hacl.Bignum.Montgomery #set-options "--z3rlimit 50 --fuel 0 --ifuel 0" inline_for_extraction noextract let kam (len:BN.meta_len t_limbs) = AM.mk_runtime_almost_mont #t_limbs len inline_for_extraction noextract let ke (len:BN.meta_len t_limbs) = BE.mk_runtime_exp #t_limbs len let add len a b res = (ke len).BE.bn.BN.add a b res let sub len a b res = (ke len).BE.bn.BN.sub a b res let add_mod len n a b res = (ke len).BE.bn.BN.add_mod_n n a b res let sub_mod len n a b res = (ke len).BE.bn.BN.sub_mod_n n a b res	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "Hacl.Bignum.Montgomery.fsti.checked", "Hacl.Bignum.MontArithmetic.fsti.checked", "Hacl.Bignum.ModReduction.fst.checked", "Hacl.Bignum.ModInv.fst.checked", "Hacl.Bignum.Exponentiation.fsti.checked", "Hacl.Bignum.Convert.fst.checked", "Hacl.Bignum.AlmostMontgomery.fsti.checked", "Hacl.Bignum.fsti.checked", "FStar.Pervasives.fsti.checked", "FStar.Mul.fst.checked" ], "interface_file": true, "source_file": "Hacl.Bignum64.fst" }	[ { "abbrev": true, "full_module": "Hacl.Bignum.Montgomery", "short_module": "BM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModInv", "short_module": "BI" }, { "abbrev": true, "full_module": "Hacl.Bignum.AlmostMontgomery", "short_module": "AM" }, { "abbrev": true, "full_module": "Hacl.Bignum.ModReduction", "short_module": "BR" }, { "abbrev": true, "full_module": "Hacl.Bignum.Exponentiation", "short_module": "BE" }, { "abbrev": true, "full_module": "Hacl.Bignum.MontArithmetic", "short_module": "MA" }, { "abbrev": true, "full_module": "Hacl.Bignum.SafeAPI", "short_module": "BS" }, { "abbrev": true, "full_module": "Hacl.Bignum", "short_module": "BN" }, { "abbrev": false, "full_module": "FStar.Mul", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "Hacl", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 0, "initial_ifuel": 0, "max_fuel": 0, "max_ifuel": 0, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": false, "z3cliopt": [], "z3refresh": false, "z3rlimit": 50, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	len: Hacl.Bignum.meta_len Hacl.Bignum64.t_limbs -> a: Hacl.Bignum64.lbignum Hacl.Bignum64.t_limbs len -> Hacl.Bignum.bn_karatsuba_mul_st Hacl.Bignum64.t_limbs len a	Prims.Tot	[ "total" ]	[]	[ "Hacl.Bignum.meta_len", "Hacl.Bignum64.t_limbs", "Hacl.Bignum64.lbignum", "Hacl.Bignum.Definitions.lbignum", "Lib.IntTypes.op_Plus_Bang", "Lib.IntTypes.U32", "Lib.IntTypes.PUB", "Hacl.Bignum.__proj__Mkbn__item__mul", "Hacl.Bignum.Exponentiation.__proj__Mkexp__item__bn", "Hacl.Bignum64.ke", "Prims.unit" ]	[]	false	false	false	false	false	let mul len a b res =	(ke len).BE.bn.BN.mul a b res	false
Effects.Def.fst	Effects.Def.return_ex	val return_ex (a: Type) (x: a) : ex a	val return_ex (a: Type) (x: a) : ex a	let return_ex (a:Type) (x:a) : ex a = on_dom unit (fun _ -> Some x)	{ "file_name": "examples/dm4free/Effects.Def.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 33, "end_line": 110, "start_col": 0, "start_line": 108 }	(* Copyright 2008-2018 Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) ( This module defines 4 monads arranged in a partial order stexn ^ ^ / \ st exn \ / v v exnst Proving the monad laws for each point and the morphism laws for each edge. ) module Effects.Def open FStar.FunctionalExtensionality //proving the laws requires feq //A generic template for proving the monad laws, via some equivalence relation eq_m let eq_m (m:Type -> Type) = eq:(a:Type -> m a -> m a -> Type){forall a x y. eq a x y ==> x == y} let eq_m_aux (#m : Type->Type) (e : eq_m m) (#a : Type) (x y : m a) : Lemma (requires (e _ x y)) (ensures (x == y)) = () val monad_laws_via_eq: m:(Type -> Type) -> eq:eq_m m -> return:(a:Type -> x:a -> Tot (m a)) -> bind:(a:Type -> b:Type -> m a -> (a -> Tot (m b)) -> Tot (m b)) -> Lemma (requires (forall (a:Type) (f:m a). eq a (bind a a f (return a)) f) /\ (forall (a:Type) (b:Type) (x:a) (f:a -> Tot (m b)). eq b (bind a b (return a x) f) (f x)) /\ (forall (a:Type) (b:Type) (c:Type) (f:m a) (g:(a -> Tot (m b))) (h:(b -> Tot (m c))). eq c (bind a c f (fun x -> bind b c (g x) h)) (bind b c (bind a b f g) h))) (ensures (forall (a:Type) (f:m a). bind a a f (return a) == f) //right unit /\ (forall (a:Type) (b:Type) (x:a) (f:a -> Tot (m b)). bind a b (return a x) f == f x) //left unit /\ (forall (a:Type) (b:Type) (c:Type) (f:m a) (g:(a -> Tot (m b))) (h:(b -> Tot (m c))). //associativity bind a c f (fun x -> bind b c (g x) h) == bind b c (bind a b f g) h)) let monad_laws_via_eq m eq return bind = let lem (a:Type) (f:m a) : Lemma (bind a a f (return a) == f) [SMTPat (bind a a f (return a))] = assert (bind a a f (return a) `eq a` f); eq_m_aux eq (bind a a f (return a)) f; // GM: ^ Unsure why Z3 doesn't figure this out on its own // instead of needing this lemma call. That's the only // reason this inner lemma exists. assert (bind a a f (return a) == f) in () //A generic template for proving the monad morphism laws, via some equivalence relation eq_m val morphism_laws_via_eq: m:(Type -> Type) -> n:(Type -> Type) -> eq_n:eq_m n -> return_m:(a:Type -> x:a -> Tot (m a)) -> bind_m:(a:Type -> b:Type -> m a -> (a -> Tot (m b)) -> Tot (m b)) -> return_n:(a:Type -> x:a -> Tot (n a)) -> bind_n:(a:Type -> b:Type -> n a -> (a -> Tot (n b)) -> Tot (n b)) -> lift:(a:Type -> m a -> Tot (n a)) -> Lemma (requires (forall (a:Type) (x:a). eq_n a (lift a (return_m a x)) (return_n a x)) /\ (forall (a:Type) (b:Type) (f:m a) (g: a -> Tot (m b)). eq_n b (lift b (bind_m a b f g)) (bind_n a b (lift a f) (fun x -> lift b (g x))))) (ensures (forall (a:Type) (x:a). lift a (return_m a x) == return_n a x) //lift-unit /\ (forall (a:Type) (b:Type) (f:m a) (g: a -> Tot (m b)). lift b (bind_m a b f g) == bind_n a b (lift a f) (fun x -> lift b (g x)))) //lift-bind #set-options "--initial_fuel 0 --max_fuel 0 --initial_ifuel 0 --max_ifuel 0 --z3rlimit 100" let morphism_laws_via_eq m n eqn return_m bind_m return_n bind_n lift = () #reset-options ( *****************************************************************************) ( Effect (st a) : A state monad over an abstract state type s ) ( *****************************************************************************) assume type s : Type //an abstract type of the state let st (a:Type) = restricted_t s (fun _ -> a s) let eq_st (a:Type) (x:st a) (y:st a) = is_restricted s x /\ is_restricted s y /\ feq x y //extensional equality on st let return_st (a:Type) (x:a) : st a = on_dom s (fun s -> (x, s)) let bind_st (a:Type) (b:Type) (f:st a) (g: a -> Tot (st b)) : st b = on_dom s (fun s0 -> let x, s1 = f s0 in g x s1) //Two actions: get and put let get (u:unit) : st s = on_dom s (fun s -> s, s) let put (x:s) : st unit = on_dom s (fun _ -> (), x) let st_laws = monad_laws_via_eq st eq_st return_st bind_st (* *****************************************************************************) ( Effect (ex a) : A state monad over an abstract state type s ) ( ******************************************************************************) let ex (a:Type) = restricted_t unit (fun _ -> option a) let eq_ex (a:Type) (x:ex a) (y:ex a) = is_restricted unit x /\ is_restricted unit y /\ feq x y //extensional equality on ex	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.FunctionalExtensionality.fsti.checked" ], "interface_file": false, "source_file": "Effects.Def.fst" }	[ { "abbrev": false, "full_module": "FStar.FunctionalExtensionality //proving the laws requires feq", "short_module": null }, { "abbrev": false, "full_module": "FStar.FunctionalExtensionality", "short_module": null }, { "abbrev": false, "full_module": "Effects", "short_module": null }, { "abbrev": false, "full_module": "Effects", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	a: Type -> x: a -> Effects.Def.ex a	Prims.Tot	[ "total" ]	[]	[ "FStar.FunctionalExtensionality.on_dom", "Prims.unit", "FStar.Pervasives.Native.option", "FStar.Pervasives.Native.Some", "Effects.Def.ex" ]	[]	false	false	false	true	false	let return_ex (a: Type) (x: a) : ex a =	on_dom unit (fun _ -> Some x)	false
Effects.Def.fst	Effects.Def.eq_exnst		val eq_exnst : a: Type -> x: Effects.Def.exnst a -> y: Effects.Def.exnst a -> Prims.logical	let eq_exnst (a:Type) (x:exnst a) (y:exnst a) = is_restricted s x /\ is_restricted s y /\ feq x y	{ "file_name": "examples/dm4free/Effects.Def.fst", "git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3", "git_url": "https://github.com/FStarLang/FStar.git", "project_name": "FStar" }	{ "end_col": 97, "end_line": 156, "start_col": 0, "start_line": 156 }	(* Copyright 2008-2018 Microsoft Research Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ) ( This module defines 4 monads arranged in a partial order stexn ^ ^ / \ st exn \ / v v exnst Proving the monad laws for each point and the morphism laws for each edge. ) module Effects.Def open FStar.FunctionalExtensionality //proving the laws requires feq //A generic template for proving the monad laws, via some equivalence relation eq_m let eq_m (m:Type -> Type) = eq:(a:Type -> m a -> m a -> Type){forall a x y. eq a x y ==> x == y} let eq_m_aux (#m : Type->Type) (e : eq_m m) (#a : Type) (x y : m a) : Lemma (requires (e _ x y)) (ensures (x == y)) = () val monad_laws_via_eq: m:(Type -> Type) -> eq:eq_m m -> return:(a:Type -> x:a -> Tot (m a)) -> bind:(a:Type -> b:Type -> m a -> (a -> Tot (m b)) -> Tot (m b)) -> Lemma (requires (forall (a:Type) (f:m a). eq a (bind a a f (return a)) f) /\ (forall (a:Type) (b:Type) (x:a) (f:a -> Tot (m b)). eq b (bind a b (return a x) f) (f x)) /\ (forall (a:Type) (b:Type) (c:Type) (f:m a) (g:(a -> Tot (m b))) (h:(b -> Tot (m c))). eq c (bind a c f (fun x -> bind b c (g x) h)) (bind b c (bind a b f g) h))) (ensures (forall (a:Type) (f:m a). bind a a f (return a) == f) //right unit /\ (forall (a:Type) (b:Type) (x:a) (f:a -> Tot (m b)). bind a b (return a x) f == f x) //left unit /\ (forall (a:Type) (b:Type) (c:Type) (f:m a) (g:(a -> Tot (m b))) (h:(b -> Tot (m c))). //associativity bind a c f (fun x -> bind b c (g x) h) == bind b c (bind a b f g) h)) let monad_laws_via_eq m eq return bind = let lem (a:Type) (f:m a) : Lemma (bind a a f (return a) == f) [SMTPat (bind a a f (return a))] = assert (bind a a f (return a) `eq a` f); eq_m_aux eq (bind a a f (return a)) f; // GM: ^ Unsure why Z3 doesn't figure this out on its own // instead of needing this lemma call. That's the only // reason this inner lemma exists. assert (bind a a f (return a) == f) in () //A generic template for proving the monad morphism laws, via some equivalence relation eq_m val morphism_laws_via_eq: m:(Type -> Type) -> n:(Type -> Type) -> eq_n:eq_m n -> return_m:(a:Type -> x:a -> Tot (m a)) -> bind_m:(a:Type -> b:Type -> m a -> (a -> Tot (m b)) -> Tot (m b)) -> return_n:(a:Type -> x:a -> Tot (n a)) -> bind_n:(a:Type -> b:Type -> n a -> (a -> Tot (n b)) -> Tot (n b)) -> lift:(a:Type -> m a -> Tot (n a)) -> Lemma (requires (forall (a:Type) (x:a). eq_n a (lift a (return_m a x)) (return_n a x)) /\ (forall (a:Type) (b:Type) (f:m a) (g: a -> Tot (m b)). eq_n b (lift b (bind_m a b f g)) (bind_n a b (lift a f) (fun x -> lift b (g x))))) (ensures (forall (a:Type) (x:a). lift a (return_m a x) == return_n a x) //lift-unit /\ (forall (a:Type) (b:Type) (f:m a) (g: a -> Tot (m b)). lift b (bind_m a b f g) == bind_n a b (lift a f) (fun x -> lift b (g x)))) //lift-bind #set-options "--initial_fuel 0 --max_fuel 0 --initial_ifuel 0 --max_ifuel 0 --z3rlimit 100" let morphism_laws_via_eq m n eqn return_m bind_m return_n bind_n lift = () #reset-options ( *****************************************************************************) ( Effect (st a) : A state monad over an abstract state type s ) ( *****************************************************************************) assume type s : Type //an abstract type of the state let st (a:Type) = restricted_t s (fun _ -> a s) let eq_st (a:Type) (x:st a) (y:st a) = is_restricted s x /\ is_restricted s y /\ feq x y //extensional equality on st let return_st (a:Type) (x:a) : st a = on_dom s (fun s -> (x, s)) let bind_st (a:Type) (b:Type) (f:st a) (g: a -> Tot (st b)) : st b = on_dom s (fun s0 -> let x, s1 = f s0 in g x s1) //Two actions: get and put let get (u:unit) : st s = on_dom s (fun s -> s, s) let put (x:s) : st unit = on_dom s (fun _ -> (), x) let st_laws = monad_laws_via_eq st eq_st return_st bind_st (* *****************************************************************************) ( Effect (ex a) : A state monad over an abstract state type s ) ( *****************************************************************************) let ex (a:Type) = restricted_t unit (fun _ -> option a) let eq_ex (a:Type) (x:ex a) (y:ex a) = is_restricted unit x /\ is_restricted unit y /\ feq x y //extensional equality on ex let return_ex (a:Type) (x:a) : ex a = on_dom unit (fun _ -> Some x) let bind_ex (a:Type) (b:Type) (f:ex a) (g: a -> Tot (ex b)) : ex b = on_dom unit (fun _ -> match f () with \| None -> None \| Some x -> g x ()) //one action: raise let raise_ (#a:Type) : ex a = on_dom unit (fun () -> None) //and a handler let handle (#a:Type) (f:ex a) (g:unit -> Tot a) : Tot a = match f () with \| None -> g() \| Some x -> x let ex_laws = monad_laws_via_eq ex eq_ex return_ex bind_ex ( *****************************************************************************) ( Effect (stexn a) : A combined monad, exceptions over state ) ( *****************************************************************************) let stexn (a:Type) = restricted_t s (fun _ -> (option a s)) let eq_stexn (a:Type) (x:stexn a) (y:stexn a) = is_restricted s x /\ is_restricted s y /\ feq x y let return_stexn (a:Type) (x:a) : stexn a = on_dom s (fun s -> Some x, s) let bind_stexn (a:Type) (b:Type) (f:stexn a) (g: a -> Tot (stexn b)) : stexn b = on_dom s (fun s0 -> match f s0 with \| None, s1 -> None, s1 \| Some x, s1 -> g x s1) let stexn_laws = monad_laws_via_eq stexn eq_stexn return_stexn bind_stexn (* *****************************************************************************) ( Effect (exnst a) : A combined monad, state over exceptions ) ( *****************************************************************************) let exnst (a:Type) = restricted_t s (fun _ -> (option (a s)))	{ "checked_file": "/", "dependencies": [ "prims.fst.checked", "FStar.Pervasives.Native.fst.checked", "FStar.Pervasives.fsti.checked", "FStar.FunctionalExtensionality.fsti.checked" ], "interface_file": false, "source_file": "Effects.Def.fst" }	[ { "abbrev": false, "full_module": "FStar.FunctionalExtensionality //proving the laws requires feq", "short_module": null }, { "abbrev": false, "full_module": "FStar.FunctionalExtensionality", "short_module": null }, { "abbrev": false, "full_module": "Effects", "short_module": null }, { "abbrev": false, "full_module": "Effects", "short_module": null }, { "abbrev": false, "full_module": "FStar.Pervasives", "short_module": null }, { "abbrev": false, "full_module": "Prims", "short_module": null }, { "abbrev": false, "full_module": "FStar", "short_module": null } ]	{ "detail_errors": false, "detail_hint_replay": false, "initial_fuel": 2, "initial_ifuel": 1, "max_fuel": 8, "max_ifuel": 2, "no_plugins": false, "no_smt": false, "no_tactics": false, "quake_hi": 1, "quake_keep": false, "quake_lo": 1, "retry": false, "reuse_hint_for": null, "smtencoding_elim_box": false, "smtencoding_l_arith_repr": "boxwrap", "smtencoding_nl_arith_repr": "boxwrap", "smtencoding_valid_elim": false, "smtencoding_valid_intro": true, "tcnorm": true, "trivial_pre_for_unannotated_effectful_fns": true, "z3cliopt": [], "z3refresh": false, "z3rlimit": 5, "z3rlimit_factor": 1, "z3seed": 0, "z3smtopt": [], "z3version": "4.8.5" }	false	a: Type -> x: Effects.Def.exnst a -> y: Effects.Def.exnst a -> Prims.logical	Prims.Tot	[ "total" ]	[]	[ "Effects.Def.exnst", "Prims.l_and", "FStar.FunctionalExtensionality.is_restricted", "Effects.Def.s", "FStar.Pervasives.Native.option", "FStar.Pervasives.Native.tuple2", "FStar.FunctionalExtensionality.feq", "Prims.logical" ]	[]	false	false	false	true	true	let eq_exnst (a: Type) (x y: exnst a) =	is_restricted s x /\ is_restricted s y /\ feq x y	false

Subsets and Splits

No saved queries yet

Save your SQL queries to embed, download, and access them later. Queries will appear here once saved.