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bool 1
class |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Pulse.Syntax.Builder.fst | Pulse.Syntax.Builder.tm_stapp | val tm_stapp : head: Pulse.Syntax.Base.term ->
arg_qual: FStar.Pervasives.Native.option Pulse.Syntax.Base.qualifier ->
arg: Pulse.Syntax.Base.term
-> Pulse.Syntax.Base.st_term' | let tm_stapp head arg_qual arg = Tm_STApp { head; arg_qual; arg } | {
"file_name": "lib/steel/pulse/Pulse.Syntax.Builder.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 65,
"end_line": 26,
"start_col": 0,
"start_line": 26
} | (*
Copyright 2023 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.
*)
module Pulse.Syntax.Builder
open Pulse.Syntax
let pat_var s = Pat_Var s
let pat_const c = Pat_Constant c
let pat_cons fv vs = Pat_Cons fv vs
let tm_return expected_type insert_eq term = Tm_Return { expected_type; insert_eq; term } | {
"checked_file": "/",
"dependencies": [
"Pulse.Syntax.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Syntax.Builder.fst"
} | [
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"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 |
head: Pulse.Syntax.Base.term ->
arg_qual: FStar.Pervasives.Native.option Pulse.Syntax.Base.qualifier ->
arg: Pulse.Syntax.Base.term
-> Pulse.Syntax.Base.st_term' | Prims.Tot | [
"total"
] | [] | [
"Pulse.Syntax.Base.term",
"FStar.Pervasives.Native.option",
"Pulse.Syntax.Base.qualifier",
"Pulse.Syntax.Base.Tm_STApp",
"Pulse.Syntax.Base.Mkst_term'__Tm_STApp__payload",
"Pulse.Syntax.Base.st_term'"
] | [] | false | false | false | true | false | let tm_stapp head arg_qual arg =
| Tm_STApp ({ head = head; arg_qual = arg_qual; arg = arg }) | false |
|
Pulse.Syntax.Builder.fst | Pulse.Syntax.Builder.tm_with_local | val tm_with_local : binder: Pulse.Syntax.Base.binder ->
initializer: Pulse.Syntax.Base.term ->
body: Pulse.Syntax.Base.st_term
-> Pulse.Syntax.Base.st_term' | let tm_with_local binder initializer body = Tm_WithLocal { binder; initializer; body } | {
"file_name": "lib/steel/pulse/Pulse.Syntax.Builder.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 86,
"end_line": 36,
"start_col": 0,
"start_line": 36
} | (*
Copyright 2023 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.
*)
module Pulse.Syntax.Builder
open Pulse.Syntax
let pat_var s = Pat_Var s
let pat_const c = Pat_Constant c
let pat_cons fv vs = Pat_Cons fv vs
let tm_return expected_type insert_eq term = Tm_Return { expected_type; insert_eq; term }
let tm_abs b q ascription body = Tm_Abs { b; q; ascription; body }
let tm_stapp head arg_qual arg = Tm_STApp { head; arg_qual; arg }
let tm_bind binder head body = Tm_Bind { binder; head; body }
let tm_totbind binder head body = Tm_TotBind { binder; head; body }
let tm_if b then_ else_ post = Tm_If { b; then_; else_; post }
let tm_match sc returns_ brs = Tm_Match {sc; returns_; brs}
let tm_elim_exists p = Tm_ElimExists { p }
let tm_intro_exists p witnesses = Tm_IntroExists { p; witnesses }
let tm_while invariant condition condition_var body = Tm_While { invariant; condition; condition_var; body }
let tm_par pre1 body1 post1 pre2 body2 post2 = Tm_Par { pre1; body1; post1; pre2; body2; post2 } | {
"checked_file": "/",
"dependencies": [
"Pulse.Syntax.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Syntax.Builder.fst"
} | [
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"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 |
binder: Pulse.Syntax.Base.binder ->
initializer: Pulse.Syntax.Base.term ->
body: Pulse.Syntax.Base.st_term
-> Pulse.Syntax.Base.st_term' | Prims.Tot | [
"total"
] | [] | [
"Pulse.Syntax.Base.binder",
"Pulse.Syntax.Base.term",
"Pulse.Syntax.Base.st_term",
"Pulse.Syntax.Base.Tm_WithLocal",
"Pulse.Syntax.Base.Mkst_term'__Tm_WithLocal__payload",
"Pulse.Syntax.Base.st_term'"
] | [] | false | false | false | true | false | let tm_with_local binder initializer body =
| Tm_WithLocal ({ binder = binder; initializer = initializer; body = body }) | false |
|
Pulse.Syntax.Builder.fst | Pulse.Syntax.Builder.tm_while | val tm_while : invariant: Pulse.Syntax.Base.term ->
condition: Pulse.Syntax.Base.st_term ->
condition_var: Pulse.Syntax.Base.ppname ->
body: Pulse.Syntax.Base.st_term
-> Pulse.Syntax.Base.st_term' | let tm_while invariant condition condition_var body = Tm_While { invariant; condition; condition_var; body } | {
"file_name": "lib/steel/pulse/Pulse.Syntax.Builder.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 108,
"end_line": 33,
"start_col": 0,
"start_line": 33
} | (*
Copyright 2023 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.
*)
module Pulse.Syntax.Builder
open Pulse.Syntax
let pat_var s = Pat_Var s
let pat_const c = Pat_Constant c
let pat_cons fv vs = Pat_Cons fv vs
let tm_return expected_type insert_eq term = Tm_Return { expected_type; insert_eq; term }
let tm_abs b q ascription body = Tm_Abs { b; q; ascription; body }
let tm_stapp head arg_qual arg = Tm_STApp { head; arg_qual; arg }
let tm_bind binder head body = Tm_Bind { binder; head; body }
let tm_totbind binder head body = Tm_TotBind { binder; head; body }
let tm_if b then_ else_ post = Tm_If { b; then_; else_; post }
let tm_match sc returns_ brs = Tm_Match {sc; returns_; brs}
let tm_elim_exists p = Tm_ElimExists { p } | {
"checked_file": "/",
"dependencies": [
"Pulse.Syntax.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Syntax.Builder.fst"
} | [
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"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 |
invariant: Pulse.Syntax.Base.term ->
condition: Pulse.Syntax.Base.st_term ->
condition_var: Pulse.Syntax.Base.ppname ->
body: Pulse.Syntax.Base.st_term
-> Pulse.Syntax.Base.st_term' | Prims.Tot | [
"total"
] | [] | [
"Pulse.Syntax.Base.term",
"Pulse.Syntax.Base.st_term",
"Pulse.Syntax.Base.ppname",
"Pulse.Syntax.Base.Tm_While",
"Pulse.Syntax.Base.Mkst_term'__Tm_While__payload",
"Pulse.Syntax.Base.st_term'"
] | [] | false | false | false | true | false | let tm_while invariant condition condition_var body =
| Tm_While
({ invariant = invariant; condition = condition; condition_var = condition_var; body = body }) | false |
|
Vale.AES.X64.AESopt.fst | Vale.AES.X64.AESopt.va_lemma_Loop6x_preamble | val va_lemma_Loop6x_preamble : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 ->
iv_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) ->
keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_preamble alg) va_s0 /\ va_get_ok va_s0 /\ (let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ Vale.X64.Decls.validDstAddrs128
(va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0)
Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 ==
FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx
va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9
va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in Vale.X64.Decls.modifies_buffer_specific128
scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 8 8 /\ (let init =
make_six_of #Vale.Def.Types_s.quad32 (fun (n:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor
(Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE n)) (va_get_xmm 15
va_sM)) in (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys 0 /\
Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64
rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_s0)))
/\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 14
va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10
va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2
va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64
rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM (va_update_mem va_sM
va_s0)))))))))))))))))))) | val va_lemma_Loop6x_preamble : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 ->
iv_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) ->
keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_preamble alg) va_s0 /\ va_get_ok va_s0 /\ (let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ Vale.X64.Decls.validDstAddrs128
(va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0)
Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 ==
FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx
va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9
va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in Vale.X64.Decls.modifies_buffer_specific128
scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 8 8 /\ (let init =
make_six_of #Vale.Def.Types_s.quad32 (fun (n:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor
(Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE n)) (va_get_xmm 15
va_sM)) in (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys 0 /\
Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64
rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_s0)))
/\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 14
va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10
va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2
va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64
rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM (va_update_mem va_sM
va_s0)))))))))))))))))))) | let va_lemma_Loop6x_preamble va_b0 va_s0 alg h_LE iv_b scratch_b key_words round_keys keys_b
hkeys_b ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5;
va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx;
va_Mod_ok; va_Mod_mem] in
let va_qc = va_qcode_Loop6x_preamble va_mods alg h_LE iv_b scratch_b key_words round_keys keys_b
hkeys_b ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_preamble alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 402 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in label va_range1
"***** POSTCONDITION NOT MET AT line 459 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 8 8) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 464 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(let init = make_six_of #Vale.Def.Types_s.quad32 (fun (n:(va_int_range 0 5)) ->
Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite
ctr_BE n)) (va_get_xmm 15 va_sM)) in label va_range1
"***** POSTCONDITION NOT MET AT line 466 column 102 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys 0) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 469 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 472 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 473 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite
ctr_BE 6) `op_Modulus` 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 475 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_s0)))))
in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm
12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2;
va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok;
va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM) | {
"file_name": "obj/Vale.AES.X64.AESopt.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 16,
"end_line": 852,
"start_col": 0,
"start_line": 813
} | module Vale.AES.X64.AESopt
open FStar.Mul
open Vale.Def.Prop_s
open Vale.Def.Opaque_s
open Vale.Def.Words_s
open Vale.Def.Types_s
open FStar.Seq
open Vale.Arch.Types
open Vale.Arch.HeapImpl
open Vale.AES.AES_s
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.InsVector
open Vale.X64.InsAes
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.AES.AES_helpers
//open Vale.Poly1305.Math // For lemma_poly_bits64()
open Vale.AES.GCM_helpers
open Vale.AES.GCTR_s
open Vale.AES.GCTR
open Vale.Arch.TypesNative
open Vale.X64.CPU_Features_s
open Vale.Math.Poly2_s
open Vale.AES.GF128_s
open Vale.AES.GF128
open Vale.AES.GHash
open Vale.AES.X64.PolyOps
open Vale.AES.X64.AESopt2
open Vale.AES.X64.AESGCM_expected_code
open Vale.Transformers.Transform
open FStar.Mul
let add = Vale.Math.Poly2_s.add
#reset-options "--z3rlimit 30"
//-- finish_aes_encrypt_le
val finish_aes_encrypt_le : alg:algorithm -> input_LE:quad32 -> key:(seq nat32)
-> Lemma
(requires (Vale.AES.AES_s.is_aes_key_LE alg key))
(ensures (Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg
input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)))
let finish_aes_encrypt_le alg input_LE key =
Vale.AES.AES_s.aes_encrypt_LE_reveal ();
Vale.AES.AES_s.eval_cipher_reveal ();
()
//--
//-- Load_two_lsb
[@ "opaque_to_smt"]
let va_code_Load_two_lsb dst =
(va_Block (va_CCons (va_code_ZeroXmm dst) (va_CCons (va_code_PinsrqImm dst 2 0
(va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
[@ "opaque_to_smt"]
let va_codegen_success_Load_two_lsb dst =
(va_pbool_and (va_codegen_success_ZeroXmm dst) (va_pbool_and (va_codegen_success_PinsrqImm dst 2
0 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ())))
[@"opaque_to_smt"]
let va_lemma_Load_two_lsb va_b0 va_s0 dst =
va_reveal_opaque (`%va_code_Load_two_lsb) (va_code_Load_two_lsb dst);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s3, va_fc3) = va_lemma_ZeroXmm (va_hd va_b1) va_s0 dst in
let va_b3 = va_tl va_b1 in
Vale.Arch.Types.lemma_insert_nat64_nat32s (va_eval_xmm va_s3 dst) 2 0;
assert (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 2 0) == 2);
let (va_s6, va_fc6) = va_lemma_PinsrqImm (va_hd va_b3) va_s3 dst 2 0 (va_op_reg_opr64_reg64 rR11)
in
let va_b6 = va_tl va_b3 in
let (va_sM, va_f6) = va_lemma_empty_total va_s6 va_b6 in
let va_f3 = va_lemma_merge_total va_b3 va_s3 va_fc6 va_s6 va_f6 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc3 va_s3 va_f3 va_sM in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Load_two_lsb dst va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_two_lsb (va_code_Load_two_lsb dst) va_s0 dst in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Load_0xc2_msb
val va_code_Load_0xc2_msb : dst:va_operand_xmm -> Tot va_code
[@ "opaque_to_smt"]
let va_code_Load_0xc2_msb dst =
(va_Block (va_CCons (va_code_ZeroXmm dst) (va_CCons (va_code_PinsrqImm dst 13979173243358019584 1
(va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
val va_codegen_success_Load_0xc2_msb : dst:va_operand_xmm -> Tot va_pbool
[@ "opaque_to_smt"]
let va_codegen_success_Load_0xc2_msb dst =
(va_pbool_and (va_codegen_success_ZeroXmm dst) (va_pbool_and (va_codegen_success_PinsrqImm dst
13979173243358019584 1 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ())))
val va_lemma_Load_0xc2_msb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load_0xc2_msb dst) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 3254779904 /\
va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))))
[@"opaque_to_smt"]
let va_lemma_Load_0xc2_msb va_b0 va_s0 dst =
va_reveal_opaque (`%va_code_Load_0xc2_msb) (va_code_Load_0xc2_msb dst);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s3, va_fc3) = va_lemma_ZeroXmm (va_hd va_b1) va_s0 dst in
let va_b3 = va_tl va_b1 in
assert (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 0
3254779904) == 13979173243358019584);
Vale.Arch.Types.lemma_insert_nat64_nat32s (va_eval_xmm va_s3 dst) 0 3254779904;
let (va_s6, va_fc6) = va_lemma_PinsrqImm (va_hd va_b3) va_s3 dst 13979173243358019584 1
(va_op_reg_opr64_reg64 rR11) in
let va_b6 = va_tl va_b3 in
let (va_sM, va_f6) = va_lemma_empty_total va_s6 va_b6 in
let va_f3 = va_lemma_merge_total va_b3 va_s3 va_fc6 va_s6 va_f6 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc3 va_s3 va_f3 va_sM in
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Load_0xc2_msb (dst:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_dst:va_value_xmm)
(va_x_r11:nat64) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_reg64
rR11 va_x_r11 (va_upd_operand_xmm dst va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM
dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 3254779904 ==> va_k va_sM (())))
val va_wpProof_Load_0xc2_msb : dst:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit ->
Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Load_0xc2_msb dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load_0xc2_msb dst) ([va_Mod_flags;
va_Mod_reg64 rR11; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Load_0xc2_msb dst va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_0xc2_msb (va_code_Load_0xc2_msb dst) va_s0 dst in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Load_0xc2_msb (dst:va_operand_xmm) : (va_quickCode unit (va_code_Load_0xc2_msb dst)) =
(va_QProc (va_code_Load_0xc2_msb dst) ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst])
(va_wp_Load_0xc2_msb dst) (va_wpProof_Load_0xc2_msb dst))
//--
//-- Load_one_lsb
[@ "opaque_to_smt"]
let va_code_Load_one_lsb dst =
(va_Block (va_CCons (va_code_ZeroXmm dst) (va_CCons (va_code_PinsrqImm dst 1 0
(va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
[@ "opaque_to_smt"]
let va_codegen_success_Load_one_lsb dst =
(va_pbool_and (va_codegen_success_ZeroXmm dst) (va_pbool_and (va_codegen_success_PinsrqImm dst 1
0 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ())))
[@"opaque_to_smt"]
let va_lemma_Load_one_lsb va_b0 va_s0 dst =
va_reveal_opaque (`%va_code_Load_one_lsb) (va_code_Load_one_lsb dst);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s3, va_fc3) = va_lemma_ZeroXmm (va_hd va_b1) va_s0 dst in
let va_b3 = va_tl va_b1 in
Vale.Arch.Types.lemma_insert_nat64_nat32s (va_eval_xmm va_s3 dst) 1 0;
assert (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 1 0) == 1);
let (va_s6, va_fc6) = va_lemma_PinsrqImm (va_hd va_b3) va_s3 dst 1 0 (va_op_reg_opr64_reg64 rR11)
in
let va_b6 = va_tl va_b3 in
let (va_sM, va_f6) = va_lemma_empty_total va_s6 va_b6 in
let va_f3 = va_lemma_merge_total va_b3 va_s3 va_fc6 va_s6 va_f6 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc3 va_s3 va_f3 va_sM in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Load_one_lsb dst va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_one_lsb (va_code_Load_one_lsb dst) va_s0 dst in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Handle_ctr32
val va_code_Handle_ctr32 : va_dummy:unit -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Handle_ctr32 () =
(va_Block (va_CCons (va_code_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR11))
(va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons
(va_code_Load_one_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10)
(va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_Load_two_lsb (va_op_xmm_xmm 5))
(va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CNil
()))))))))))))))))))))
val va_codegen_success_Handle_ctr32 : va_dummy:unit -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Handle_ctr32 () =
(va_pbool_and (va_codegen_success_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR11))
(va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm
0)) (va_pbool_and (va_codegen_success_Load_one_lsb (va_op_xmm_xmm 5)) (va_pbool_and
(va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5))
(va_pbool_and (va_codegen_success_Load_two_lsb (va_op_xmm_xmm 5)) (va_pbool_and
(va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5))
(va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm
5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10)
(va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm
11) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm
10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_pbool_and (va_codegen_success_VPaddd
(va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_pbool_and
(va_codegen_success_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0))
(va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm
15)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13)
(va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm
13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 14)
(va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm
1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_ttrue ())))))))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Handle_ctr32 (va_mods:va_mods_t) (ctr_BE:quad32) : (va_quickCode unit
(va_code_Handle_ctr32 ())) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 256 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR11)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 257 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 261 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load_one_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 262 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 263 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load_two_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 264 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 265 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 266 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 267 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 268 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 269 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 270 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 271 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 272 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 273 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 274 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 275 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 276 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QEmpty
(())))))))))))))))))))))
val va_lemma_Handle_ctr32 : va_b0:va_code -> va_s0:va_state -> ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Handle_ctr32 ()) va_s0 /\ va_get_ok va_s0 /\
(avx_enabled /\ sse_enabled /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32
ctr_BE)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM, va_get_xmm
14 va_sM, va_get_xmm 1 va_sM) == xor_reverse_inc32lite_6 2 1 ctr_BE (va_get_xmm 15 va_sM) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM
(va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM
(va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Handle_ctr32 va_b0 va_s0 ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm
11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR11; va_Mod_ok] in
let va_qc = va_qcode_Handle_ctr32 va_mods ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Handle_ctr32 ()) va_qc va_s0 (fun va_s0
va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 234 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 254 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM,
va_get_xmm 14 va_sM, va_get_xmm 1 va_sM) == xor_reverse_inc32lite_6 2 1 ctr_BE (va_get_xmm 15
va_sM))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Handle_ctr32 (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE) /\ (forall (va_x_r11:nat64) (va_x_xmm0:quad32)
(va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm10:quad32)
(va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14
(va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10
va_x_xmm10 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm
1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR11 va_x_r11 va_s0))))))))))) in va_get_ok
va_sM /\ (va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM,
va_get_xmm 14 va_sM, va_get_xmm 1 va_sM) == xor_reverse_inc32lite_6 2 1 ctr_BE (va_get_xmm 15
va_sM) ==> va_k va_sM (())))
val va_wpProof_Handle_ctr32 : ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Handle_ctr32 ctr_BE va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Handle_ctr32 ()) ([va_Mod_flags;
va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM,
va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Handle_ctr32 ctr_BE va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Handle_ctr32 (va_code_Handle_ctr32 ()) va_s0 ctr_BE in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM
(va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM
(va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR11]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Handle_ctr32 (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32 ())) =
(va_QProc (va_code_Handle_ctr32 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12;
va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1;
va_Mod_xmm 0; va_Mod_reg64 rR11]) (va_wp_Handle_ctr32 ctr_BE) (va_wpProof_Handle_ctr32 ctr_BE))
//--
//-- Loop6x_ctr_update
val va_code_Loop6x_ctr_update : alg:algorithm -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_ctr_update alg =
(va_Block (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (va_CCons
(va_IfElse (va_cmp_ge (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (va_Block (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret) (va_CCons (va_code_Handle_ctr32 ()) (va_CCons (va_code_Sub64
(va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_CNil ()))))) (va_Block (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)
(va_op_xmm_xmm 14)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10)
(va_op_opr128_xmm 15)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11)
(va_op_opr128_xmm 15)) (va_CNil ()))))))) (va_CNil ()))))
val va_codegen_success_Loop6x_ctr_update : alg:algorithm -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_ctr_update alg =
(va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6))
(va_pbool_and (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0)
(va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rR9) (0 - 32) Secret) (va_pbool_and
(va_codegen_success_Handle_ctr32 ()) (va_pbool_and (va_codegen_success_Sub64
(va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_pbool_and
(va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3)
(va_op_reg_opr64_reg64 rR9) (0 - 32) Secret) (va_pbool_and (va_codegen_success_VPaddd
(va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 14)) (va_pbool_and (va_codegen_success_VPxor
(va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_codegen_success_VPxor
(va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)))))))) (va_ttrue ())))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_ctr_update (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (key_words:(seq
nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) :
(va_quickCode unit (va_code_Loop6x_ctr_update alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_QBind va_range1
"***** PRECONDITION NOT MET AT line 339 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (fun (va_s:va_state) _ ->
va_QBind va_range1
"***** PRECONDITION NOT MET AT line 340 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_qIf va_mods (Cmp_ge (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (qblock va_mods (fun
(va_s:va_state) -> va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 341 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret hkeys_b 0) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 342 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Handle_ctr32 ctr_BE) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 343 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_QEmpty (())))))) (qblock
va_mods (fun (va_s:va_state) -> va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 345 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret hkeys_b 0) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 346 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 14)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 347 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_QBind
va_range1
"***** PRECONDITION NOT MET AT line 348 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg36:Prims.nat) = va_get_reg64 rRbx va_old_s in let
(va_arg35:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg34:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let
(va_arg33:Vale.Def.Types_s.quad32) = ctr_BE in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 349 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_msb_in_bounds va_arg33 va_arg34 va_arg35 va_arg36)
(va_QEmpty (()))))))))) (fun (va_s:va_state) va_g -> va_QEmpty (())))))
val va_lemma_Loop6x_ctr_update : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 ->
key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 ->
ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_ctr_update alg) va_s0 /\ va_get_ok va_s0 /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ aes_reqs_offset alg key_words
round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout
va_s0) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216
/\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE
0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus`
256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_get_xmm 1 va_sM ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64
rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == xor_reverse_inc32lite_6 3 0 ctr_BE (va_get_xmm 15
va_sM) /\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0
va_sM)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13
va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9
va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1
va_sM (va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64 rR11 va_sM
(va_update_reg64 rRbx va_sM (va_update_ok va_sM va_s0))))))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_ctr_update va_b0 va_s0 alg h_LE key_words round_keys keys_b hkeys_b ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm
11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1;
va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok] in
let va_qc = va_qcode_Loop6x_ctr_update va_mods alg h_LE key_words round_keys keys_b hkeys_b
ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_ctr_update alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 279 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in label va_range1
"***** POSTCONDITION NOT MET AT line 330 column 57 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE
6)) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 331 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 332 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite
ctr_BE 6) `op_Modulus` 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 334 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == xor_reverse_inc32lite_6 3 0 ctr_BE (va_get_xmm 15 va_sM)) /\
label va_range1
"***** POSTCONDITION NOT MET AT line 335 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_sM))))
in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm
0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_ctr_update (alg:algorithm) (h_LE:quad32) (key_words:(seq nat32)) (round_keys:(seq
quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ aes_reqs_offset alg key_words
round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout
va_s0) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216
/\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE
0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus`
256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h) /\ (forall (va_x_rbx:nat64) (va_x_r11:nat64)
(va_x_xmm3:quad32) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32)
(va_x_xmm6:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32)
(va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm
12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9
(va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1
(va_upd_xmm 0 va_x_xmm0 (va_upd_xmm 3 va_x_xmm3 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx
va_x_rbx va_s0)))))))))))))) in va_get_ok va_sM /\ (let (h:Vale.Math.Poly2_s.poly) =
Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_get_xmm 1
va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <=
va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == xor_reverse_inc32lite_6 3 0 ctr_BE (va_get_xmm 15
va_sM) /\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0
va_sM)) ==> va_k va_sM (())))
val va_wpProof_Loop6x_ctr_update : alg:algorithm -> h_LE:quad32 -> key_words:(seq nat32) ->
round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE:quad32 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_ctr_update alg h_LE key_words round_keys keys_b
hkeys_b ctr_BE va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_ctr_update alg) ([va_Mod_flags;
va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9;
va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3;
va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_ctr_update (va_code_Loop6x_ctr_update alg) va_s0 alg h_LE
key_words round_keys keys_b hkeys_b ctr_BE in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM
(va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM
(va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx
va_sM (va_update_ok va_sM va_s0)))))))))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm
0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_ctr_update (alg:algorithm) (h_LE:quad32) (key_words:(seq nat32))
(round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) : (va_quickCode
unit (va_code_Loop6x_ctr_update alg)) =
(va_QProc (va_code_Loop6x_ctr_update alg) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5;
va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx])
(va_wp_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE)
(va_wpProof_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE))
//--
//-- Loop6x_plain
val va_code_Loop6x_plain : alg:algorithm -> rnd:nat -> rndkey:va_operand_xmm -> Tot va_code
[@ "opaque_to_smt"]
let va_code_Loop6x_plain alg rnd rndkey =
(va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) rndkey
(va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 1) - 128) Secret) (va_CCons
(va_code_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) rndkey) (va_CCons (va_code_VAESNI_enc
(va_op_xmm_xmm 10) (va_op_xmm_xmm 10) rndkey) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) rndkey) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12)
rndkey) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) rndkey) (va_CCons
(va_code_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) rndkey) (va_CNil ())))))))))
val va_codegen_success_Loop6x_plain : alg:algorithm -> rnd:nat -> rndkey:va_operand_xmm -> Tot
va_pbool
[@ "opaque_to_smt"]
let va_codegen_success_Loop6x_plain alg rnd rndkey =
(va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) rndkey
(va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 1) - 128) Secret) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) rndkey) (va_ttrue
()))))))))
val va_lemma_Loop6x_plain : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> rnd:nat ->
key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init:quad32_6 ->
rndkey:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_plain alg rnd rndkey) va_s0 /\ va_is_dst_xmm
rndkey va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ (rndkey == 1 \/ rndkey == 2 \/ rndkey == 15)
/\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 1 < FStar.Seq.Base.length
#quad32 round_keys /\ (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm
12 va_s0, va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == rounds_opaque_6 init round_keys rnd)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys (rnd + 1) /\ va_state_eq
va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12
va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok
va_sM (va_update_operand_xmm rndkey va_sM va_s0)))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_plain va_b0 va_s0 alg rnd key_words round_keys keys_b init rndkey =
va_reveal_opaque (`%va_code_Loop6x_plain) (va_code_Loop6x_plain alg rnd rndkey);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s9, va_fc9) = va_lemma_Load128_buffer (va_hd va_b1) va_s0 (va_op_heaplet_mem_heaplet 0)
rndkey (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 1) - 128) Secret keys_b (rnd + 1)
in
let va_b9 = va_tl va_b1 in
let (va_s10, va_fc10) = va_lemma_VAESNI_enc (va_hd va_b9) va_s9 (va_op_xmm_xmm 9) (va_op_xmm_xmm
9) rndkey in
let va_b10 = va_tl va_b9 in
let (va_s11, va_fc11) = va_lemma_VAESNI_enc (va_hd va_b10) va_s10 (va_op_xmm_xmm 10)
(va_op_xmm_xmm 10) rndkey in
let va_b11 = va_tl va_b10 in
let (va_s12, va_fc12) = va_lemma_VAESNI_enc (va_hd va_b11) va_s11 (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) rndkey in
let va_b12 = va_tl va_b11 in
let (va_s13, va_fc13) = va_lemma_VAESNI_enc (va_hd va_b12) va_s12 (va_op_xmm_xmm 12)
(va_op_xmm_xmm 12) rndkey in
let va_b13 = va_tl va_b12 in
let (va_s14, va_fc14) = va_lemma_VAESNI_enc (va_hd va_b13) va_s13 (va_op_xmm_xmm 13)
(va_op_xmm_xmm 13) rndkey in
let va_b14 = va_tl va_b13 in
let (va_s15, va_fc15) = va_lemma_VAESNI_enc (va_hd va_b14) va_s14 (va_op_xmm_xmm 14)
(va_op_xmm_xmm 14) rndkey in
let va_b15 = va_tl va_b14 in
Vale.AES.AES_s.eval_rounds_reveal ();
Vale.AES.AES_helpers.commute_sub_bytes_shift_rows_forall ();
let (va_sM, va_f15) = va_lemma_empty_total va_s15 va_b15 in
let va_f14 = va_lemma_merge_total va_b14 va_s14 va_fc15 va_s15 va_f15 va_sM in
let va_f13 = va_lemma_merge_total va_b13 va_s13 va_fc14 va_s14 va_f14 va_sM in
let va_f12 = va_lemma_merge_total va_b12 va_s12 va_fc13 va_s13 va_f13 va_sM in
let va_f11 = va_lemma_merge_total va_b11 va_s11 va_fc12 va_s12 va_f12 va_sM in
let va_f10 = va_lemma_merge_total va_b10 va_s10 va_fc11 va_s11 va_f11 va_sM in
let va_f9 = va_lemma_merge_total va_b9 va_s9 va_fc10 va_s10 va_f10 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc9 va_s9 va_f9 va_sM in
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_plain (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32))
(keys_b:buffer128) (init:quad32_6) (rndkey:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm rndkey va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ (rndkey == 1 \/ rndkey == 2 \/
rndkey == 15) /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 1 < FStar.Seq.Base.length
#quad32 round_keys /\ (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm
12 va_s0, va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == rounds_opaque_6 init round_keys rnd) /\
(forall (va_x_rndkey:va_value_xmm) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32)
(va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm
12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9
(va_upd_operand_xmm rndkey va_x_rndkey va_s0))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM,
va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM, va_get_xmm
14 va_sM) == rounds_opaque_6 init round_keys (rnd + 1) ==> va_k va_sM (())))
val va_wpProof_Loop6x_plain : alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq
quad32) -> keys_b:buffer128 -> init:quad32_6 -> rndkey:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_plain alg rnd key_words round_keys keys_b init
rndkey va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_plain alg rnd rndkey)
([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10;
va_Mod_xmm 9; va_mod_xmm rndkey]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_plain alg rnd key_words round_keys keys_b init rndkey va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_plain (va_code_Loop6x_plain alg rnd rndkey) va_s0 alg rnd
key_words round_keys keys_b init rndkey in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM
(va_update_ok va_sM (va_update_operand_xmm rndkey va_sM va_s0))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_mod_xmm rndkey]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_plain (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq
quad32)) (keys_b:buffer128) (init:quad32_6) (rndkey:va_operand_xmm) : (va_quickCode unit
(va_code_Loop6x_plain alg rnd rndkey)) =
(va_QProc (va_code_Loop6x_plain alg rnd rndkey) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_mod_xmm rndkey])
(va_wp_Loop6x_plain alg rnd key_words round_keys keys_b init rndkey) (va_wpProof_Loop6x_plain
alg rnd key_words round_keys keys_b init rndkey))
//--
//-- Loop6x_preamble
val va_code_Loop6x_preamble : alg:algorithm -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_preamble alg =
(va_Block (va_CCons (va_code_Loop6x_ctr_update alg) (va_CCons (va_code_Store128_buffer
(va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 128 Secret)
(va_CCons (va_code_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 15)) (va_CNil ())))))))
val va_codegen_success_Loop6x_preamble : alg:algorithm -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_preamble alg =
(va_pbool_and (va_codegen_success_Loop6x_ctr_update alg) (va_pbool_and
(va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_xmm_xmm 1) 128 Secret) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 12)
(va_op_xmm_xmm 12) (va_op_opr128_xmm 15)) (va_pbool_and (va_codegen_success_VPxor
(va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 15)) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 15))
(va_ttrue ()))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_preamble (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (iv_b:buffer128)
(scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128)
(hkeys_b:buffer128) (ctr_BE:quad32) : (va_quickCode unit (va_code_Loop6x_preamble alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_QBind va_range1
"***** PRECONDITION NOT MET AT line 477 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE) (fun
(va_s:va_state) _ -> let (va_arg43:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg42:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 479 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg42 va_arg43) (let
(va_arg41:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let
(va_arg40:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 480 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg40 va_arg41) (let
(va_arg39:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let
(va_arg38:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 481 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg38 va_arg39) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 498 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_xmm_xmm 1) 128 Secret scratch_b 8) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 499 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg37:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg36:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 499 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg36 va_arg37) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 500 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg35:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg34:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 500 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg34 va_arg35) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 501 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg33:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg32:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 501 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg32 va_arg33) (va_QEmpty
(()))))))))))))))
val va_lemma_Loop6x_preamble : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 ->
iv_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) ->
keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_preamble alg) va_s0 /\ va_get_ok va_s0 /\ (let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ Vale.X64.Decls.validDstAddrs128
(va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0)
Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 ==
FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx
va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9
va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in Vale.X64.Decls.modifies_buffer_specific128
scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 8 8 /\ (let init =
make_six_of #Vale.Def.Types_s.quad32 (fun (n:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor
(Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE n)) (va_get_xmm 15
va_sM)) in (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys 0 /\
Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64
rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_s0)))
/\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 14
va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10
va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2
va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64
rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM (va_update_mem va_sM
va_s0)))))))))))))))))))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.InsAes.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Transformers.Transform.fsti.checked",
"Vale.Math.Poly2_s.fsti.checked",
"Vale.Math.Poly2.Bits_s.fsti.checked",
"Vale.Math.Poly2.Bits.fsti.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Def.Prop_s.fst.checked",
"Vale.Def.Opaque_s.fsti.checked",
"Vale.Arch.TypesNative.fsti.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"Vale.AES.X64.PolyOps.fsti.checked",
"Vale.AES.X64.AESopt2.fsti.checked",
"Vale.AES.X64.AESGCM_expected_code.fsti.checked",
"Vale.AES.GHash.fsti.checked",
"Vale.AES.GF128_s.fsti.checked",
"Vale.AES.GF128.fsti.checked",
"Vale.AES.GCTR_s.fst.checked",
"Vale.AES.GCTR.fsti.checked",
"Vale.AES.GCM_helpers.fsti.checked",
"Vale.AES.AES_s.fst.checked",
"Vale.AES.AES_helpers.fsti.checked",
"Vale.AES.AES_common_s.fst.checked",
"prims.fst.checked",
"FStar.Seq.Base.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked"
],
"interface_file": true,
"source_file": "Vale.AES.X64.AESopt.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Transformers.Transform",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESGCM_expected_code",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESopt2",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.PolyOps",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GHash",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Math.Poly2_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.TypesNative",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCM_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsAes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"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.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Seq",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_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": "FStar.Mul",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Transformers.Transform",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESGCM_expected_code",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESopt2",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.PolyOps",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GHash",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Math.Poly2_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.TypesNative",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCM_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsAes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"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.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Seq",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_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.AES.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.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": 30,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
va_b0: Vale.X64.Decls.va_code ->
va_s0: Vale.X64.Decls.va_state ->
alg: Vale.AES.AES_common_s.algorithm ->
h_LE: Vale.X64.Decls.quad32 ->
iv_b: Vale.X64.Memory.buffer128 ->
scratch_b: Vale.X64.Memory.buffer128 ->
key_words: FStar.Seq.Base.seq Vale.X64.Memory.nat32 ->
round_keys: FStar.Seq.Base.seq Vale.X64.Decls.quad32 ->
keys_b: Vale.X64.Memory.buffer128 ->
hkeys_b: Vale.X64.Memory.buffer128 ->
ctr_BE: Vale.X64.Decls.quad32
-> Prims.Ghost (Vale.X64.Decls.va_state * Vale.X64.Decls.va_fuel) | Prims.Ghost | [] | [] | [
"Vale.X64.Decls.va_code",
"Vale.X64.Decls.va_state",
"Vale.AES.AES_common_s.algorithm",
"Vale.X64.Decls.quad32",
"Vale.X64.Memory.buffer128",
"FStar.Seq.Base.seq",
"Vale.X64.Memory.nat32",
"Vale.X64.QuickCodes.fuel",
"Prims.unit",
"FStar.Pervasives.Native.Mktuple2",
"Vale.X64.Decls.va_fuel",
"Vale.X64.QuickCode.va_lemma_norm_mods",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_Mod_flags",
"Vale.X64.QuickCode.va_Mod_mem_heaplet",
"Vale.X64.QuickCode.va_Mod_xmm",
"Vale.X64.QuickCode.va_Mod_reg64",
"Vale.X64.Machine_s.rR11",
"Vale.X64.Machine_s.rRbx",
"Vale.X64.QuickCode.va_Mod_ok",
"Vale.X64.QuickCode.va_Mod_mem",
"Prims.Nil",
"FStar.Pervasives.assert_norm",
"Prims.eq2",
"Prims.list",
"Vale.X64.QuickCode.__proj__QProc__item__mods",
"Vale.AES.X64.AESopt.va_code_Loop6x_preamble",
"FStar.Pervasives.Native.tuple2",
"FStar.Pervasives.Native.tuple3",
"Vale.X64.State.vale_state",
"Vale.X64.QuickCodes.va_wp_sound_code_norm",
"Prims.l_and",
"Vale.X64.QuickCodes.label",
"Vale.X64.QuickCodes.va_range1",
"Prims.b2t",
"Vale.X64.Decls.va_get_ok",
"Vale.X64.Decls.modifies_buffer_specific128",
"Vale.X64.Decls.va_get_mem_heaplet",
"FStar.Pervasives.Native.tuple6",
"FStar.Pervasives.Native.Mktuple6",
"Vale.X64.Decls.va_get_xmm",
"Vale.AES.X64.AESopt.rounds_opaque_6",
"Vale.Def.Types_s.quad32",
"Vale.X64.Decls.buffer128_read",
"Vale.Def.Types_s.reverse_bytes_quad32",
"Vale.AES.GCTR.inc32lite",
"Prims.op_LessThanOrEqual",
"Vale.X64.Decls.va_get_reg64",
"Prims.op_LessThan",
"Prims.int",
"Prims.op_Modulus",
"Vale.Def.Words_s.__proj__Mkfour__item__lo0",
"Vale.Def.Types_s.nat32",
"Vale.AES.X64.AESopt.six_of",
"Vale.AES.X64.AESopt.make_six_of",
"Vale.X64.Decls.va_int_range",
"Vale.Def.Types_s.quad32_xor",
"Vale.Math.Poly2_s.poly",
"Vale.Math.Poly2.Bits_s.of_quad32",
"Vale.X64.QuickCode.quickCode",
"Vale.AES.X64.AESopt.va_qcode_Loop6x_preamble"
] | [] | false | false | false | false | false | let va_lemma_Loop6x_preamble
va_b0
va_s0
alg
h_LE
iv_b
scratch_b
key_words
round_keys
keys_b
hkeys_b
ctr_BE
=
| let va_mods:va_mods_t =
[
va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1;
va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok; va_Mod_mem
]
in
let va_qc =
va_qcode_Loop6x_preamble va_mods alg h_LE iv_b scratch_b key_words round_keys keys_b hkeys_b
ctr_BE
in
let va_sM, va_fM, va_g =
va_wp_sound_code_norm (va_code_Loop6x_preamble alg)
va_qc
va_s0
(fun va_s0 va_sM va_g ->
let () = va_g in
label va_range1
"***** POSTCONDITION NOT MET AT line 402 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\
(let h:Vale.Math.Poly2_s.poly =
Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 h_LE)
in
label va_range1
"***** POSTCONDITION NOT MET AT line 459 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b
(va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM)
8
8) /\
label va_range1
"***** POSTCONDITION NOT MET AT line 464 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(let init =
make_six_of #Vale.Def.Types_s.quad32
(fun (n: (va_int_range 0 5)) ->
Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite
ctr_BE
n))
(va_get_xmm 15 va_sM))
in
label va_range1
"***** POSTCONDITION NOT MET AT line 466 column 102 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM,
va_get_xmm 10 va_sM,
va_get_xmm 11 va_sM,
va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM,
va_get_xmm 14 va_sM) ==
rounds_opaque_6 init round_keys 0) /\
label va_range1
"***** POSTCONDITION NOT MET AT line 469 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\
label va_range1
"***** POSTCONDITION NOT MET AT line 472 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\
label va_range1
"***** POSTCONDITION NOT MET AT line 473 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRbx va_sM ==
(Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6))
`op_Modulus`
256) /\
label va_range1
"***** POSTCONDITION NOT MET AT line 475 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 3 va_sM ==
Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_s0)))))
in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([
va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1;
va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok; va_Mod_mem
])
va_sM
va_s0;
(va_sM, va_fM) | false |
Vale.PPC64LE.InsStack.fst | Vale.PPC64LE.InsStack.va_codegen_success_Load_stack128 | val va_codegen_success_Load_stack128 : dst:va_operand_vec_opr -> offset:int -> Tot va_pbool | val va_codegen_success_Load_stack128 : dst:va_operand_vec_opr -> offset:int -> Tot va_pbool | let va_codegen_success_Load_stack128 dst offset =
(va_ttrue ()) | {
"file_name": "obj/Vale.PPC64LE.InsStack.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 15,
"end_line": 116,
"start_col": 0,
"start_line": 115
} | module Vale.PPC64LE.InsStack
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
open Vale.PPC64LE.State
open Vale.PPC64LE.StateLemmas
open Vale.PPC64LE.Decls
open Vale.PPC64LE.InsBasic
open Vale.PPC64LE.InsVector
open Vale.PPC64LE.Stack_Sems
module S = Vale.PPC64LE.Semantics_s
module P = Vale.PPC64LE.Print_s
friend Vale.PPC64LE.Decls
friend Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Stack_Sems
#reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 200"
//-- Alloc_stack
[@ "opaque_to_smt"]
let va_code_Alloc_stack n =
(Ins (S.Alloc n))
[@ "opaque_to_smt"]
let va_codegen_success_Alloc_stack n =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Alloc_stack va_b0 va_s0 n =
va_reveal_opaque (`%va_code_Alloc_stack) (va_code_Alloc_stack n);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Alloc n)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Alloc n)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Alloc_stack n va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Alloc_stack (va_code_Alloc_stack n) va_s0 n in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_reg 1 va_sM (va_update_ok va_sM va_s0)));
va_lemma_norm_mods ([va_Mod_reg 1]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Dealloc_stack
[@ "opaque_to_smt"]
let va_code_Dealloc_stack n =
(Ins (S.Dealloc n))
[@ "opaque_to_smt"]
let va_codegen_success_Dealloc_stack n =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Dealloc_stack va_b0 va_s0 n =
va_reveal_opaque (`%va_code_Dealloc_stack) (va_code_Dealloc_stack n);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Dealloc n)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Dealloc n)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Dealloc_stack n va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Dealloc_stack (va_code_Dealloc_stack n) va_s0 n in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_stack va_sM (va_update_reg 1 va_sM (va_update_ok va_sM
va_s0))));
va_lemma_norm_mods ([va_Mod_stack; va_Mod_reg 1]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Store_stack128
[@ "opaque_to_smt"]
let va_code_Store_stack128 src offset =
(Ins (S.StoreStack128 src Secret offset))
[@ "opaque_to_smt"]
let va_codegen_success_Store_stack128 src offset =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Store_stack128 va_b0 va_s0 src offset =
va_reveal_opaque (`%va_code_Store_stack128) (va_code_Store_stack128 src offset);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.StoreStack128 src Secret offset)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.StoreStack128 src Secret offset)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Store_stack128 src offset va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Store_stack128 (va_code_Store_stack128 src offset) va_s0 src offset
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_stackTaint va_sM (va_update_stack va_sM (va_update_ok va_sM
va_s0))));
va_lemma_norm_mods ([va_Mod_stackTaint; va_Mod_stack]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Load_stack128
[@ "opaque_to_smt"]
let va_code_Load_stack128 dst offset =
(Ins (S.LoadStack128 dst Secret offset)) | {
"checked_file": "/",
"dependencies": [
"Vale.PPC64LE.StateLemmas.fsti.checked",
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_Sems.fst.checked",
"Vale.PPC64LE.Stack_Sems.fst.checked",
"Vale.PPC64LE.Stack_i.fst.checked",
"Vale.PPC64LE.Stack_i.fst.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Print_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.checked",
"Vale.PPC64LE.InsVector.fsti.checked",
"Vale.PPC64LE.InsBasic.fsti.checked",
"Vale.PPC64LE.Decls.fst.checked",
"Vale.PPC64LE.Decls.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": true,
"source_file": "Vale.PPC64LE.InsStack.fst"
} | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Stack_Sems",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Stack_Sems",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.InsVector",
"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.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"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.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"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": 200,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | dst: Vale.PPC64LE.Decls.va_operand_vec_opr -> offset: Prims.int -> Vale.PPC64LE.Decls.va_pbool | Prims.Tot | [
"total"
] | [] | [
"Vale.PPC64LE.Decls.va_operand_vec_opr",
"Prims.int",
"Vale.PPC64LE.Decls.va_ttrue",
"Vale.PPC64LE.Decls.va_pbool"
] | [] | false | false | false | true | false | let va_codegen_success_Load_stack128 dst offset =
| (va_ttrue ()) | false |
Vale.AES.X64.AESopt.fst | Vale.AES.X64.AESopt.va_lemma_Loop6x_round9 | val va_lemma_Loop6x_round9 : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat ->
in_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) ->
keys_b:buffer128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_round9 alg) va_s0 /\ va_get_ok va_s0 /\
(sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0)
(va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\
Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0)
scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b
(va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm
1 va_s0 == Vale.X64.Decls.buffer128_read keys_b (Vale.AES.AES_common_s.nr alg)
(va_get_mem_heaplet 0 va_s0))))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 1 1 /\ (va_get_xmm 2 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5
va_sM, va_get_xmm 6 va_sM, va_get_xmm 7 va_sM, va_get_xmm 3 va_sM) == make_six_of #quad32 (fun
(i:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor (FStar.Seq.Base.index
#Vale.Def.Types_s.quad32 round_keys (Vale.AES.AES_common_s.nr alg))
(Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_sM)))
/\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 7
va_s0) /\ va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_flags va_sM
(va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 3 va_sM
(va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_ok va_sM
(va_update_mem va_sM va_s0))))))))))))) | val va_lemma_Loop6x_round9 : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat ->
in_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) ->
keys_b:buffer128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_round9 alg) va_s0 /\ va_get_ok va_s0 /\
(sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0)
(va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\
Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0)
scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b
(va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm
1 va_s0 == Vale.X64.Decls.buffer128_read keys_b (Vale.AES.AES_common_s.nr alg)
(va_get_mem_heaplet 0 va_s0))))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 1 1 /\ (va_get_xmm 2 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5
va_sM, va_get_xmm 6 va_sM, va_get_xmm 7 va_sM, va_get_xmm 3 va_sM) == make_six_of #quad32 (fun
(i:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor (FStar.Seq.Base.index
#Vale.Def.Types_s.quad32 round_keys (Vale.AES.AES_common_s.nr alg))
(Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_sM)))
/\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 7
va_s0) /\ va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_flags va_sM
(va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 3 va_sM
(va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_ok va_sM
(va_update_mem va_sM va_s0))))))))))))) | let va_lemma_Loop6x_round9 va_b0 va_s0 alg count in_b scratch_b key_words round_keys keys_b =
let (va_mods:va_mods_t) = [va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_ok; va_Mod_mem] in
let va_qc = va_qcode_Loop6x_round9 va_mods alg count in_b scratch_b key_words round_keys keys_b in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_round9 alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 535 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (label va_range1
"***** POSTCONDITION NOT MET AT line 561 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 1 1) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 563 column 102 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 2 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5 va_sM, va_get_xmm 6 va_sM, va_get_xmm 7
va_sM, va_get_xmm 3 va_sM) == make_six_of #quad32 (fun (i:(va_int_range 0 5)) ->
Vale.Def.Types_s.quad32_xor (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys
(Vale.AES.AES_common_s.nr alg)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i)
(va_get_mem_heaplet 6 va_sM)))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 564 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 7
va_s0))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm
5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_ok; va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM) | {
"file_name": "obj/Vale.AES.X64.AESopt.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 16,
"end_line": 1215,
"start_col": 0,
"start_line": 1192
} | module Vale.AES.X64.AESopt
open FStar.Mul
open Vale.Def.Prop_s
open Vale.Def.Opaque_s
open Vale.Def.Words_s
open Vale.Def.Types_s
open FStar.Seq
open Vale.Arch.Types
open Vale.Arch.HeapImpl
open Vale.AES.AES_s
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.InsVector
open Vale.X64.InsAes
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.AES.AES_helpers
//open Vale.Poly1305.Math // For lemma_poly_bits64()
open Vale.AES.GCM_helpers
open Vale.AES.GCTR_s
open Vale.AES.GCTR
open Vale.Arch.TypesNative
open Vale.X64.CPU_Features_s
open Vale.Math.Poly2_s
open Vale.AES.GF128_s
open Vale.AES.GF128
open Vale.AES.GHash
open Vale.AES.X64.PolyOps
open Vale.AES.X64.AESopt2
open Vale.AES.X64.AESGCM_expected_code
open Vale.Transformers.Transform
open FStar.Mul
let add = Vale.Math.Poly2_s.add
#reset-options "--z3rlimit 30"
//-- finish_aes_encrypt_le
val finish_aes_encrypt_le : alg:algorithm -> input_LE:quad32 -> key:(seq nat32)
-> Lemma
(requires (Vale.AES.AES_s.is_aes_key_LE alg key))
(ensures (Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg
input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)))
let finish_aes_encrypt_le alg input_LE key =
Vale.AES.AES_s.aes_encrypt_LE_reveal ();
Vale.AES.AES_s.eval_cipher_reveal ();
()
//--
//-- Load_two_lsb
[@ "opaque_to_smt"]
let va_code_Load_two_lsb dst =
(va_Block (va_CCons (va_code_ZeroXmm dst) (va_CCons (va_code_PinsrqImm dst 2 0
(va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
[@ "opaque_to_smt"]
let va_codegen_success_Load_two_lsb dst =
(va_pbool_and (va_codegen_success_ZeroXmm dst) (va_pbool_and (va_codegen_success_PinsrqImm dst 2
0 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ())))
[@"opaque_to_smt"]
let va_lemma_Load_two_lsb va_b0 va_s0 dst =
va_reveal_opaque (`%va_code_Load_two_lsb) (va_code_Load_two_lsb dst);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s3, va_fc3) = va_lemma_ZeroXmm (va_hd va_b1) va_s0 dst in
let va_b3 = va_tl va_b1 in
Vale.Arch.Types.lemma_insert_nat64_nat32s (va_eval_xmm va_s3 dst) 2 0;
assert (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 2 0) == 2);
let (va_s6, va_fc6) = va_lemma_PinsrqImm (va_hd va_b3) va_s3 dst 2 0 (va_op_reg_opr64_reg64 rR11)
in
let va_b6 = va_tl va_b3 in
let (va_sM, va_f6) = va_lemma_empty_total va_s6 va_b6 in
let va_f3 = va_lemma_merge_total va_b3 va_s3 va_fc6 va_s6 va_f6 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc3 va_s3 va_f3 va_sM in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Load_two_lsb dst va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_two_lsb (va_code_Load_two_lsb dst) va_s0 dst in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Load_0xc2_msb
val va_code_Load_0xc2_msb : dst:va_operand_xmm -> Tot va_code
[@ "opaque_to_smt"]
let va_code_Load_0xc2_msb dst =
(va_Block (va_CCons (va_code_ZeroXmm dst) (va_CCons (va_code_PinsrqImm dst 13979173243358019584 1
(va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
val va_codegen_success_Load_0xc2_msb : dst:va_operand_xmm -> Tot va_pbool
[@ "opaque_to_smt"]
let va_codegen_success_Load_0xc2_msb dst =
(va_pbool_and (va_codegen_success_ZeroXmm dst) (va_pbool_and (va_codegen_success_PinsrqImm dst
13979173243358019584 1 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ())))
val va_lemma_Load_0xc2_msb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load_0xc2_msb dst) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 3254779904 /\
va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))))
[@"opaque_to_smt"]
let va_lemma_Load_0xc2_msb va_b0 va_s0 dst =
va_reveal_opaque (`%va_code_Load_0xc2_msb) (va_code_Load_0xc2_msb dst);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s3, va_fc3) = va_lemma_ZeroXmm (va_hd va_b1) va_s0 dst in
let va_b3 = va_tl va_b1 in
assert (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 0
3254779904) == 13979173243358019584);
Vale.Arch.Types.lemma_insert_nat64_nat32s (va_eval_xmm va_s3 dst) 0 3254779904;
let (va_s6, va_fc6) = va_lemma_PinsrqImm (va_hd va_b3) va_s3 dst 13979173243358019584 1
(va_op_reg_opr64_reg64 rR11) in
let va_b6 = va_tl va_b3 in
let (va_sM, va_f6) = va_lemma_empty_total va_s6 va_b6 in
let va_f3 = va_lemma_merge_total va_b3 va_s3 va_fc6 va_s6 va_f6 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc3 va_s3 va_f3 va_sM in
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Load_0xc2_msb (dst:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_dst:va_value_xmm)
(va_x_r11:nat64) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_reg64
rR11 va_x_r11 (va_upd_operand_xmm dst va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM
dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 3254779904 ==> va_k va_sM (())))
val va_wpProof_Load_0xc2_msb : dst:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit ->
Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Load_0xc2_msb dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load_0xc2_msb dst) ([va_Mod_flags;
va_Mod_reg64 rR11; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Load_0xc2_msb dst va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_0xc2_msb (va_code_Load_0xc2_msb dst) va_s0 dst in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Load_0xc2_msb (dst:va_operand_xmm) : (va_quickCode unit (va_code_Load_0xc2_msb dst)) =
(va_QProc (va_code_Load_0xc2_msb dst) ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst])
(va_wp_Load_0xc2_msb dst) (va_wpProof_Load_0xc2_msb dst))
//--
//-- Load_one_lsb
[@ "opaque_to_smt"]
let va_code_Load_one_lsb dst =
(va_Block (va_CCons (va_code_ZeroXmm dst) (va_CCons (va_code_PinsrqImm dst 1 0
(va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
[@ "opaque_to_smt"]
let va_codegen_success_Load_one_lsb dst =
(va_pbool_and (va_codegen_success_ZeroXmm dst) (va_pbool_and (va_codegen_success_PinsrqImm dst 1
0 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ())))
[@"opaque_to_smt"]
let va_lemma_Load_one_lsb va_b0 va_s0 dst =
va_reveal_opaque (`%va_code_Load_one_lsb) (va_code_Load_one_lsb dst);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s3, va_fc3) = va_lemma_ZeroXmm (va_hd va_b1) va_s0 dst in
let va_b3 = va_tl va_b1 in
Vale.Arch.Types.lemma_insert_nat64_nat32s (va_eval_xmm va_s3 dst) 1 0;
assert (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 1 0) == 1);
let (va_s6, va_fc6) = va_lemma_PinsrqImm (va_hd va_b3) va_s3 dst 1 0 (va_op_reg_opr64_reg64 rR11)
in
let va_b6 = va_tl va_b3 in
let (va_sM, va_f6) = va_lemma_empty_total va_s6 va_b6 in
let va_f3 = va_lemma_merge_total va_b3 va_s3 va_fc6 va_s6 va_f6 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc3 va_s3 va_f3 va_sM in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Load_one_lsb dst va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_one_lsb (va_code_Load_one_lsb dst) va_s0 dst in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Handle_ctr32
val va_code_Handle_ctr32 : va_dummy:unit -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Handle_ctr32 () =
(va_Block (va_CCons (va_code_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR11))
(va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons
(va_code_Load_one_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10)
(va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_Load_two_lsb (va_op_xmm_xmm 5))
(va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CNil
()))))))))))))))))))))
val va_codegen_success_Handle_ctr32 : va_dummy:unit -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Handle_ctr32 () =
(va_pbool_and (va_codegen_success_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR11))
(va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm
0)) (va_pbool_and (va_codegen_success_Load_one_lsb (va_op_xmm_xmm 5)) (va_pbool_and
(va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5))
(va_pbool_and (va_codegen_success_Load_two_lsb (va_op_xmm_xmm 5)) (va_pbool_and
(va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5))
(va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm
5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10)
(va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm
11) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm
10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_pbool_and (va_codegen_success_VPaddd
(va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_pbool_and
(va_codegen_success_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0))
(va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm
15)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13)
(va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm
13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 14)
(va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm
1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_ttrue ())))))))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Handle_ctr32 (va_mods:va_mods_t) (ctr_BE:quad32) : (va_quickCode unit
(va_code_Handle_ctr32 ())) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 256 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR11)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 257 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 261 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load_one_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 262 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 263 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load_two_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 264 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 265 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 266 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 267 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 268 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 269 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 270 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 271 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 272 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 273 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 274 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 275 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 276 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QEmpty
(())))))))))))))))))))))
val va_lemma_Handle_ctr32 : va_b0:va_code -> va_s0:va_state -> ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Handle_ctr32 ()) va_s0 /\ va_get_ok va_s0 /\
(avx_enabled /\ sse_enabled /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32
ctr_BE)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM, va_get_xmm
14 va_sM, va_get_xmm 1 va_sM) == xor_reverse_inc32lite_6 2 1 ctr_BE (va_get_xmm 15 va_sM) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM
(va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM
(va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Handle_ctr32 va_b0 va_s0 ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm
11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR11; va_Mod_ok] in
let va_qc = va_qcode_Handle_ctr32 va_mods ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Handle_ctr32 ()) va_qc va_s0 (fun va_s0
va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 234 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 254 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM,
va_get_xmm 14 va_sM, va_get_xmm 1 va_sM) == xor_reverse_inc32lite_6 2 1 ctr_BE (va_get_xmm 15
va_sM))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Handle_ctr32 (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE) /\ (forall (va_x_r11:nat64) (va_x_xmm0:quad32)
(va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm10:quad32)
(va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14
(va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10
va_x_xmm10 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm
1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR11 va_x_r11 va_s0))))))))))) in va_get_ok
va_sM /\ (va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM,
va_get_xmm 14 va_sM, va_get_xmm 1 va_sM) == xor_reverse_inc32lite_6 2 1 ctr_BE (va_get_xmm 15
va_sM) ==> va_k va_sM (())))
val va_wpProof_Handle_ctr32 : ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Handle_ctr32 ctr_BE va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Handle_ctr32 ()) ([va_Mod_flags;
va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM,
va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Handle_ctr32 ctr_BE va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Handle_ctr32 (va_code_Handle_ctr32 ()) va_s0 ctr_BE in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM
(va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM
(va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR11]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Handle_ctr32 (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32 ())) =
(va_QProc (va_code_Handle_ctr32 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12;
va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1;
va_Mod_xmm 0; va_Mod_reg64 rR11]) (va_wp_Handle_ctr32 ctr_BE) (va_wpProof_Handle_ctr32 ctr_BE))
//--
//-- Loop6x_ctr_update
val va_code_Loop6x_ctr_update : alg:algorithm -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_ctr_update alg =
(va_Block (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (va_CCons
(va_IfElse (va_cmp_ge (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (va_Block (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret) (va_CCons (va_code_Handle_ctr32 ()) (va_CCons (va_code_Sub64
(va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_CNil ()))))) (va_Block (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)
(va_op_xmm_xmm 14)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10)
(va_op_opr128_xmm 15)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11)
(va_op_opr128_xmm 15)) (va_CNil ()))))))) (va_CNil ()))))
val va_codegen_success_Loop6x_ctr_update : alg:algorithm -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_ctr_update alg =
(va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6))
(va_pbool_and (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0)
(va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rR9) (0 - 32) Secret) (va_pbool_and
(va_codegen_success_Handle_ctr32 ()) (va_pbool_and (va_codegen_success_Sub64
(va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_pbool_and
(va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3)
(va_op_reg_opr64_reg64 rR9) (0 - 32) Secret) (va_pbool_and (va_codegen_success_VPaddd
(va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 14)) (va_pbool_and (va_codegen_success_VPxor
(va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_codegen_success_VPxor
(va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)))))))) (va_ttrue ())))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_ctr_update (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (key_words:(seq
nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) :
(va_quickCode unit (va_code_Loop6x_ctr_update alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_QBind va_range1
"***** PRECONDITION NOT MET AT line 339 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (fun (va_s:va_state) _ ->
va_QBind va_range1
"***** PRECONDITION NOT MET AT line 340 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_qIf va_mods (Cmp_ge (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (qblock va_mods (fun
(va_s:va_state) -> va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 341 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret hkeys_b 0) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 342 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Handle_ctr32 ctr_BE) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 343 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_QEmpty (())))))) (qblock
va_mods (fun (va_s:va_state) -> va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 345 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret hkeys_b 0) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 346 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 14)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 347 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_QBind
va_range1
"***** PRECONDITION NOT MET AT line 348 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg36:Prims.nat) = va_get_reg64 rRbx va_old_s in let
(va_arg35:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg34:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let
(va_arg33:Vale.Def.Types_s.quad32) = ctr_BE in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 349 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_msb_in_bounds va_arg33 va_arg34 va_arg35 va_arg36)
(va_QEmpty (()))))))))) (fun (va_s:va_state) va_g -> va_QEmpty (())))))
val va_lemma_Loop6x_ctr_update : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 ->
key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 ->
ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_ctr_update alg) va_s0 /\ va_get_ok va_s0 /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ aes_reqs_offset alg key_words
round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout
va_s0) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216
/\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE
0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus`
256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_get_xmm 1 va_sM ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64
rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == xor_reverse_inc32lite_6 3 0 ctr_BE (va_get_xmm 15
va_sM) /\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0
va_sM)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13
va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9
va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1
va_sM (va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64 rR11 va_sM
(va_update_reg64 rRbx va_sM (va_update_ok va_sM va_s0))))))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_ctr_update va_b0 va_s0 alg h_LE key_words round_keys keys_b hkeys_b ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm
11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1;
va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok] in
let va_qc = va_qcode_Loop6x_ctr_update va_mods alg h_LE key_words round_keys keys_b hkeys_b
ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_ctr_update alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 279 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in label va_range1
"***** POSTCONDITION NOT MET AT line 330 column 57 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE
6)) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 331 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 332 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite
ctr_BE 6) `op_Modulus` 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 334 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == xor_reverse_inc32lite_6 3 0 ctr_BE (va_get_xmm 15 va_sM)) /\
label va_range1
"***** POSTCONDITION NOT MET AT line 335 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_sM))))
in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm
0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_ctr_update (alg:algorithm) (h_LE:quad32) (key_words:(seq nat32)) (round_keys:(seq
quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ aes_reqs_offset alg key_words
round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout
va_s0) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216
/\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE
0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus`
256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h) /\ (forall (va_x_rbx:nat64) (va_x_r11:nat64)
(va_x_xmm3:quad32) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32)
(va_x_xmm6:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32)
(va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm
12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9
(va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1
(va_upd_xmm 0 va_x_xmm0 (va_upd_xmm 3 va_x_xmm3 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx
va_x_rbx va_s0)))))))))))))) in va_get_ok va_sM /\ (let (h:Vale.Math.Poly2_s.poly) =
Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_get_xmm 1
va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <=
va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == xor_reverse_inc32lite_6 3 0 ctr_BE (va_get_xmm 15
va_sM) /\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0
va_sM)) ==> va_k va_sM (())))
val va_wpProof_Loop6x_ctr_update : alg:algorithm -> h_LE:quad32 -> key_words:(seq nat32) ->
round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE:quad32 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_ctr_update alg h_LE key_words round_keys keys_b
hkeys_b ctr_BE va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_ctr_update alg) ([va_Mod_flags;
va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9;
va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3;
va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_ctr_update (va_code_Loop6x_ctr_update alg) va_s0 alg h_LE
key_words round_keys keys_b hkeys_b ctr_BE in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM
(va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM
(va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx
va_sM (va_update_ok va_sM va_s0)))))))))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm
0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_ctr_update (alg:algorithm) (h_LE:quad32) (key_words:(seq nat32))
(round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) : (va_quickCode
unit (va_code_Loop6x_ctr_update alg)) =
(va_QProc (va_code_Loop6x_ctr_update alg) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5;
va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx])
(va_wp_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE)
(va_wpProof_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE))
//--
//-- Loop6x_plain
val va_code_Loop6x_plain : alg:algorithm -> rnd:nat -> rndkey:va_operand_xmm -> Tot va_code
[@ "opaque_to_smt"]
let va_code_Loop6x_plain alg rnd rndkey =
(va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) rndkey
(va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 1) - 128) Secret) (va_CCons
(va_code_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) rndkey) (va_CCons (va_code_VAESNI_enc
(va_op_xmm_xmm 10) (va_op_xmm_xmm 10) rndkey) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) rndkey) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12)
rndkey) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) rndkey) (va_CCons
(va_code_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) rndkey) (va_CNil ())))))))))
val va_codegen_success_Loop6x_plain : alg:algorithm -> rnd:nat -> rndkey:va_operand_xmm -> Tot
va_pbool
[@ "opaque_to_smt"]
let va_codegen_success_Loop6x_plain alg rnd rndkey =
(va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) rndkey
(va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 1) - 128) Secret) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) rndkey) (va_ttrue
()))))))))
val va_lemma_Loop6x_plain : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> rnd:nat ->
key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init:quad32_6 ->
rndkey:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_plain alg rnd rndkey) va_s0 /\ va_is_dst_xmm
rndkey va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ (rndkey == 1 \/ rndkey == 2 \/ rndkey == 15)
/\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 1 < FStar.Seq.Base.length
#quad32 round_keys /\ (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm
12 va_s0, va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == rounds_opaque_6 init round_keys rnd)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys (rnd + 1) /\ va_state_eq
va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12
va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok
va_sM (va_update_operand_xmm rndkey va_sM va_s0)))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_plain va_b0 va_s0 alg rnd key_words round_keys keys_b init rndkey =
va_reveal_opaque (`%va_code_Loop6x_plain) (va_code_Loop6x_plain alg rnd rndkey);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s9, va_fc9) = va_lemma_Load128_buffer (va_hd va_b1) va_s0 (va_op_heaplet_mem_heaplet 0)
rndkey (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 1) - 128) Secret keys_b (rnd + 1)
in
let va_b9 = va_tl va_b1 in
let (va_s10, va_fc10) = va_lemma_VAESNI_enc (va_hd va_b9) va_s9 (va_op_xmm_xmm 9) (va_op_xmm_xmm
9) rndkey in
let va_b10 = va_tl va_b9 in
let (va_s11, va_fc11) = va_lemma_VAESNI_enc (va_hd va_b10) va_s10 (va_op_xmm_xmm 10)
(va_op_xmm_xmm 10) rndkey in
let va_b11 = va_tl va_b10 in
let (va_s12, va_fc12) = va_lemma_VAESNI_enc (va_hd va_b11) va_s11 (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) rndkey in
let va_b12 = va_tl va_b11 in
let (va_s13, va_fc13) = va_lemma_VAESNI_enc (va_hd va_b12) va_s12 (va_op_xmm_xmm 12)
(va_op_xmm_xmm 12) rndkey in
let va_b13 = va_tl va_b12 in
let (va_s14, va_fc14) = va_lemma_VAESNI_enc (va_hd va_b13) va_s13 (va_op_xmm_xmm 13)
(va_op_xmm_xmm 13) rndkey in
let va_b14 = va_tl va_b13 in
let (va_s15, va_fc15) = va_lemma_VAESNI_enc (va_hd va_b14) va_s14 (va_op_xmm_xmm 14)
(va_op_xmm_xmm 14) rndkey in
let va_b15 = va_tl va_b14 in
Vale.AES.AES_s.eval_rounds_reveal ();
Vale.AES.AES_helpers.commute_sub_bytes_shift_rows_forall ();
let (va_sM, va_f15) = va_lemma_empty_total va_s15 va_b15 in
let va_f14 = va_lemma_merge_total va_b14 va_s14 va_fc15 va_s15 va_f15 va_sM in
let va_f13 = va_lemma_merge_total va_b13 va_s13 va_fc14 va_s14 va_f14 va_sM in
let va_f12 = va_lemma_merge_total va_b12 va_s12 va_fc13 va_s13 va_f13 va_sM in
let va_f11 = va_lemma_merge_total va_b11 va_s11 va_fc12 va_s12 va_f12 va_sM in
let va_f10 = va_lemma_merge_total va_b10 va_s10 va_fc11 va_s11 va_f11 va_sM in
let va_f9 = va_lemma_merge_total va_b9 va_s9 va_fc10 va_s10 va_f10 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc9 va_s9 va_f9 va_sM in
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_plain (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32))
(keys_b:buffer128) (init:quad32_6) (rndkey:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm rndkey va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ (rndkey == 1 \/ rndkey == 2 \/
rndkey == 15) /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 1 < FStar.Seq.Base.length
#quad32 round_keys /\ (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm
12 va_s0, va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == rounds_opaque_6 init round_keys rnd) /\
(forall (va_x_rndkey:va_value_xmm) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32)
(va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm
12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9
(va_upd_operand_xmm rndkey va_x_rndkey va_s0))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM,
va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM, va_get_xmm
14 va_sM) == rounds_opaque_6 init round_keys (rnd + 1) ==> va_k va_sM (())))
val va_wpProof_Loop6x_plain : alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq
quad32) -> keys_b:buffer128 -> init:quad32_6 -> rndkey:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_plain alg rnd key_words round_keys keys_b init
rndkey va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_plain alg rnd rndkey)
([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10;
va_Mod_xmm 9; va_mod_xmm rndkey]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_plain alg rnd key_words round_keys keys_b init rndkey va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_plain (va_code_Loop6x_plain alg rnd rndkey) va_s0 alg rnd
key_words round_keys keys_b init rndkey in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM
(va_update_ok va_sM (va_update_operand_xmm rndkey va_sM va_s0))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_mod_xmm rndkey]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_plain (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq
quad32)) (keys_b:buffer128) (init:quad32_6) (rndkey:va_operand_xmm) : (va_quickCode unit
(va_code_Loop6x_plain alg rnd rndkey)) =
(va_QProc (va_code_Loop6x_plain alg rnd rndkey) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_mod_xmm rndkey])
(va_wp_Loop6x_plain alg rnd key_words round_keys keys_b init rndkey) (va_wpProof_Loop6x_plain
alg rnd key_words round_keys keys_b init rndkey))
//--
//-- Loop6x_preamble
val va_code_Loop6x_preamble : alg:algorithm -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_preamble alg =
(va_Block (va_CCons (va_code_Loop6x_ctr_update alg) (va_CCons (va_code_Store128_buffer
(va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 128 Secret)
(va_CCons (va_code_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 15)) (va_CNil ())))))))
val va_codegen_success_Loop6x_preamble : alg:algorithm -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_preamble alg =
(va_pbool_and (va_codegen_success_Loop6x_ctr_update alg) (va_pbool_and
(va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_xmm_xmm 1) 128 Secret) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 12)
(va_op_xmm_xmm 12) (va_op_opr128_xmm 15)) (va_pbool_and (va_codegen_success_VPxor
(va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 15)) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 15))
(va_ttrue ()))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_preamble (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (iv_b:buffer128)
(scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128)
(hkeys_b:buffer128) (ctr_BE:quad32) : (va_quickCode unit (va_code_Loop6x_preamble alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_QBind va_range1
"***** PRECONDITION NOT MET AT line 477 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE) (fun
(va_s:va_state) _ -> let (va_arg43:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg42:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 479 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg42 va_arg43) (let
(va_arg41:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let
(va_arg40:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 480 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg40 va_arg41) (let
(va_arg39:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let
(va_arg38:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 481 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg38 va_arg39) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 498 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_xmm_xmm 1) 128 Secret scratch_b 8) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 499 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg37:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg36:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 499 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg36 va_arg37) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 500 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg35:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg34:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 500 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg34 va_arg35) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 501 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg33:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg32:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 501 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg32 va_arg33) (va_QEmpty
(()))))))))))))))
val va_lemma_Loop6x_preamble : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 ->
iv_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) ->
keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_preamble alg) va_s0 /\ va_get_ok va_s0 /\ (let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ Vale.X64.Decls.validDstAddrs128
(va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0)
Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 ==
FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx
va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9
va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in Vale.X64.Decls.modifies_buffer_specific128
scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 8 8 /\ (let init =
make_six_of #Vale.Def.Types_s.quad32 (fun (n:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor
(Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE n)) (va_get_xmm 15
va_sM)) in (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys 0 /\
Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64
rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_s0)))
/\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 14
va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10
va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2
va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64
rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM (va_update_mem va_sM
va_s0))))))))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_preamble va_b0 va_s0 alg h_LE iv_b scratch_b key_words round_keys keys_b
hkeys_b ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5;
va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx;
va_Mod_ok; va_Mod_mem] in
let va_qc = va_qcode_Loop6x_preamble va_mods alg h_LE iv_b scratch_b key_words round_keys keys_b
hkeys_b ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_preamble alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 402 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in label va_range1
"***** POSTCONDITION NOT MET AT line 459 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 8 8) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 464 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(let init = make_six_of #Vale.Def.Types_s.quad32 (fun (n:(va_int_range 0 5)) ->
Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite
ctr_BE n)) (va_get_xmm 15 va_sM)) in label va_range1
"***** POSTCONDITION NOT MET AT line 466 column 102 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys 0) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 469 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 472 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 473 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite
ctr_BE 6) `op_Modulus` 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 475 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_s0)))))
in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm
12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2;
va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok;
va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_preamble (alg:algorithm) (h_LE:quad32) (iv_b:buffer128) (scratch_b:buffer128)
(key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128)
(ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ Vale.X64.Decls.validDstAddrs128
(va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0)
Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 ==
FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx
va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9
va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h) /\ (forall (va_x_mem:vale_heap) (va_x_rbx:nat64)
(va_x_r11:nat64) (va_x_xmm3:quad32) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32)
(va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32)
(va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32)
(va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_mem_heaplet 3 va_x_heap3 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13
(va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9
va_x_xmm9 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1
va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_xmm 3 va_x_xmm3 (va_upd_reg64 rR11 va_x_r11
(va_upd_reg64 rRbx va_x_rbx (va_upd_mem va_x_mem va_s0)))))))))))))))) in va_get_ok va_sM /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in Vale.X64.Decls.modifies_buffer_specific128
scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 8 8 /\ (let init =
make_six_of #Vale.Def.Types_s.quad32 (fun (n:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor
(Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE n)) (va_get_xmm 15
va_sM)) in (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys 0 /\
Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64
rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_s0)))
==> va_k va_sM (())))
val va_wpProof_Loop6x_preamble : alg:algorithm -> h_LE:quad32 -> iv_b:buffer128 ->
scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 ->
hkeys_b:buffer128 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_preamble alg h_LE iv_b scratch_b key_words
round_keys keys_b hkeys_b ctr_BE va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_preamble alg) ([va_Mod_flags;
va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm
10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0,
va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_preamble alg h_LE iv_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE
va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_preamble (va_code_Loop6x_preamble alg) va_s0 alg h_LE iv_b
scratch_b key_words round_keys keys_b hkeys_b ctr_BE in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 14
va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10
va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2
va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64
rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM (va_update_mem va_sM
va_s0)))))))))))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm
12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2;
va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_mem])
va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_preamble (alg:algorithm) (h_LE:quad32) (iv_b:buffer128) (scratch_b:buffer128)
(key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128)
(ctr_BE:quad32) : (va_quickCode unit (va_code_Loop6x_preamble alg)) =
(va_QProc (va_code_Loop6x_preamble alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14;
va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11;
va_Mod_reg64 rRbx; va_Mod_mem]) (va_wp_Loop6x_preamble alg h_LE iv_b scratch_b key_words
round_keys keys_b hkeys_b ctr_BE) (va_wpProof_Loop6x_preamble alg h_LE iv_b scratch_b key_words
round_keys keys_b hkeys_b ctr_BE))
//--
//-- Loop6x_reverse128
val va_code_Loop6x_reverse128 : in0_offset:nat -> stack_offset:nat -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_reverse128 in0_offset stack_offset =
(va_Block (va_CCons (va_code_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rR13) (va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16 + 8)
Secret true) (va_CCons (va_code_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rR12) (va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16) Secret
false) (va_CCons (va_code_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR13) (stack_offset `op_Multiply` 16)
Secret false) (va_CCons (va_code_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR12) (stack_offset `op_Multiply` 16 + 8)
Secret true) (va_CNil ()))))))
val va_codegen_success_Loop6x_reverse128 : in0_offset:nat -> stack_offset:nat -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_reverse128 in0_offset stack_offset =
(va_pbool_and (va_codegen_success_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rR13) (va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16 + 8)
Secret true) (va_pbool_and (va_codegen_success_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rR12) (va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16) Secret
false) (va_pbool_and (va_codegen_success_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR13) (stack_offset `op_Multiply` 16)
Secret false) (va_pbool_and (va_codegen_success_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR12) (stack_offset `op_Multiply` 16 + 8)
Secret true) (va_ttrue ())))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_reverse128 (va_mods:va_mods_t) (in0_offset:nat) (stack_offset:nat) (start:nat)
(in0_b:buffer128) (scratch_b:buffer128) : (va_quickCode unit (va_code_Loop6x_reverse128
in0_offset stack_offset)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 527 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rR13)
(va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16 + 8) Secret true in0_b (start +
in0_offset)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 528 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rR12)
(va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16) Secret false in0_b (start +
in0_offset)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 529 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR13) (stack_offset `op_Multiply` 16) Secret false scratch_b
stack_offset) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 530 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR12) (stack_offset `op_Multiply` 16 + 8) Secret true scratch_b
stack_offset) (fun (va_s:va_state) _ -> let (va_arg10:Vale.Def.Types_s.quad32) =
Vale.X64.Decls.buffer128_read scratch_b stack_offset (va_get_mem_heaplet 3 va_s) in let
(va_arg9:Vale.Def.Types_s.quad32) = Vale.X64.Decls.buffer128_read scratch_b stack_offset
(va_get_mem_heaplet 3 va_old_s) in let (va_arg8:Vale.Def.Types_s.quad32) =
Vale.X64.Decls.buffer128_read in0_b (start + in0_offset) (va_get_mem_heaplet 6 va_old_s) in
va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 531 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.Arch.Types.lemma_reverse_bytes_quad32_64 va_arg8 va_arg9 va_arg10)
(va_QEmpty (()))))))))
val va_lemma_Loop6x_reverse128 : va_b0:va_code -> va_s0:va_state -> in0_offset:nat ->
stack_offset:nat -> start:nat -> in0_b:buffer128 -> scratch_b:buffer128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_reverse128 in0_offset stack_offset) va_s0 /\
va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128
(va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b start (in0_offset + 1)
(va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3
va_s0) (va_get_reg64 rRbp va_s0) scratch_b (stack_offset + 1) (va_get_mem_layout va_s0)
Secret)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) stack_offset stack_offset /\ Vale.X64.Decls.buffer128_read
scratch_b stack_offset (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32
(Vale.X64.Decls.buffer128_read in0_b (start + in0_offset) (va_get_mem_heaplet 6 va_s0))) /\
va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64
rR12 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_reverse128 va_b0 va_s0 in0_offset stack_offset start in0_b scratch_b =
let (va_mods:va_mods_t) = [va_Mod_mem_heaplet 3; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_ok;
va_Mod_mem] in
let va_qc = va_qcode_Loop6x_reverse128 va_mods in0_offset stack_offset start in0_b scratch_b in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_reverse128 in0_offset
stack_offset) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 504 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (label va_range1
"***** POSTCONDITION NOT MET AT line 523 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) stack_offset stack_offset) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 525 column 88 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b stack_offset (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (start + in0_offset)
(va_get_mem_heaplet 6 va_s0))))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_ok;
va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_reverse128 (in0_offset:nat) (stack_offset:nat) (start:nat) (in0_b:buffer128)
(scratch_b:buffer128) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128
(va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b start (in0_offset + 1)
(va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3
va_s0) (va_get_reg64 rRbp va_s0) scratch_b (stack_offset + 1) (va_get_mem_layout va_s0) Secret)
/\ (forall (va_x_mem:vale_heap) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_heap3:vale_heap) . let
va_sM = va_upd_mem_heaplet 3 va_x_heap3 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12
(va_upd_mem va_x_mem va_s0))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128
scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) stack_offset stack_offset
/\ Vale.X64.Decls.buffer128_read scratch_b stack_offset (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (start + in0_offset)
(va_get_mem_heaplet 6 va_s0))) ==> va_k va_sM (())))
val va_wpProof_Loop6x_reverse128 : in0_offset:nat -> stack_offset:nat -> start:nat ->
in0_b:buffer128 -> scratch_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_reverse128 in0_offset stack_offset start in0_b
scratch_b va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_reverse128 in0_offset
stack_offset) ([va_Mod_mem_heaplet 3; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_mem]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_reverse128 in0_offset stack_offset start in0_b scratch_b va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_reverse128 (va_code_Loop6x_reverse128 in0_offset
stack_offset) va_s0 in0_offset stack_offset start in0_b scratch_b in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR13 va_sM
(va_update_reg64 rR12 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))));
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_mem])
va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_reverse128 (in0_offset:nat) (stack_offset:nat) (start:nat) (in0_b:buffer128)
(scratch_b:buffer128) : (va_quickCode unit (va_code_Loop6x_reverse128 in0_offset stack_offset)) =
(va_QProc (va_code_Loop6x_reverse128 in0_offset stack_offset) ([va_Mod_mem_heaplet 3;
va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_mem]) (va_wp_Loop6x_reverse128 in0_offset
stack_offset start in0_b scratch_b) (va_wpProof_Loop6x_reverse128 in0_offset stack_offset start
in0_b scratch_b))
//--
//-- Loop6x_round9
val va_code_Loop6x_round9 : alg:algorithm -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_round9 alg =
(va_Block (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64
rRbp) (va_op_xmm_xmm 7) 16 Secret) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor
(va_op_xmm_xmm 2) (va_op_xmm_xmm 1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg64_reg64 rRdi) 0 Secret)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_CCons
(va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 1)
(va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret))
(va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm
1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret))
(va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 7) (va_op_xmm_xmm
1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret))
(va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm
1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret))
(va_CNil ())))))))))))))))
val va_codegen_success_Loop6x_round9 : alg:algorithm -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_round9 alg =
(va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 7) 16 Secret) (va_pbool_and
(va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 2)
(va_op_xmm_xmm 1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0
Secret)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_pbool_and
(va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 5)
(va_op_xmm_xmm 1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32
Secret)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_pbool_and
(va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 7)
(va_op_xmm_xmm 1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64
Secret)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (va_ttrue ()))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_round9 (va_mods:va_mods_t) (alg:algorithm) (count:nat) (in_b:buffer128)
(scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) :
(va_quickCode unit (va_code_Loop6x_round9 alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 567 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_xmm_xmm 7) 16 Secret scratch_b 1) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 568 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret in_b
(count `op_Multiply` 6 + 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 568 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 2) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 569 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret in_b
(count `op_Multiply` 6 + 1)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 569 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 570 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret in_b
(count `op_Multiply` 6 + 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 570 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 571 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret in_b
(count `op_Multiply` 6 + 3)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 571 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 572 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret in_b
(count `op_Multiply` 6 + 4)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 572 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 7) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 573 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret in_b
(count `op_Multiply` 6 + 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 573 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (va_QEmpty
(()))))))))))))))))
val va_lemma_Loop6x_round9 : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat ->
in_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) ->
keys_b:buffer128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_round9 alg) va_s0 /\ va_get_ok va_s0 /\
(sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0)
(va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\
Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0)
scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b
(va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm
1 va_s0 == Vale.X64.Decls.buffer128_read keys_b (Vale.AES.AES_common_s.nr alg)
(va_get_mem_heaplet 0 va_s0))))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 1 1 /\ (va_get_xmm 2 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5
va_sM, va_get_xmm 6 va_sM, va_get_xmm 7 va_sM, va_get_xmm 3 va_sM) == make_six_of #quad32 (fun
(i:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor (FStar.Seq.Base.index
#Vale.Def.Types_s.quad32 round_keys (Vale.AES.AES_common_s.nr alg))
(Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_sM)))
/\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 7
va_s0) /\ va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_flags va_sM
(va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 3 va_sM
(va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_ok va_sM
(va_update_mem va_sM va_s0))))))))))))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.InsAes.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Transformers.Transform.fsti.checked",
"Vale.Math.Poly2_s.fsti.checked",
"Vale.Math.Poly2.Bits_s.fsti.checked",
"Vale.Math.Poly2.Bits.fsti.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Def.Prop_s.fst.checked",
"Vale.Def.Opaque_s.fsti.checked",
"Vale.Arch.TypesNative.fsti.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"Vale.AES.X64.PolyOps.fsti.checked",
"Vale.AES.X64.AESopt2.fsti.checked",
"Vale.AES.X64.AESGCM_expected_code.fsti.checked",
"Vale.AES.GHash.fsti.checked",
"Vale.AES.GF128_s.fsti.checked",
"Vale.AES.GF128.fsti.checked",
"Vale.AES.GCTR_s.fst.checked",
"Vale.AES.GCTR.fsti.checked",
"Vale.AES.GCM_helpers.fsti.checked",
"Vale.AES.AES_s.fst.checked",
"Vale.AES.AES_helpers.fsti.checked",
"Vale.AES.AES_common_s.fst.checked",
"prims.fst.checked",
"FStar.Seq.Base.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked"
],
"interface_file": true,
"source_file": "Vale.AES.X64.AESopt.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Transformers.Transform",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESGCM_expected_code",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESopt2",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.PolyOps",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GHash",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Math.Poly2_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.TypesNative",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCM_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsAes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"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.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Seq",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_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": "FStar.Mul",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Transformers.Transform",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESGCM_expected_code",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESopt2",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.PolyOps",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GHash",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Math.Poly2_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.TypesNative",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCM_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsAes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"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.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Seq",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_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.AES.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.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": 30,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
va_b0: Vale.X64.Decls.va_code ->
va_s0: Vale.X64.Decls.va_state ->
alg: Vale.AES.AES_common_s.algorithm ->
count: Prims.nat ->
in_b: Vale.X64.Memory.buffer128 ->
scratch_b: Vale.X64.Memory.buffer128 ->
key_words: FStar.Seq.Base.seq Vale.X64.Memory.nat32 ->
round_keys: FStar.Seq.Base.seq Vale.X64.Decls.quad32 ->
keys_b: Vale.X64.Memory.buffer128
-> Prims.Ghost (Vale.X64.Decls.va_state * Vale.X64.Decls.va_fuel) | Prims.Ghost | [] | [] | [
"Vale.X64.Decls.va_code",
"Vale.X64.Decls.va_state",
"Vale.AES.AES_common_s.algorithm",
"Prims.nat",
"Vale.X64.Memory.buffer128",
"FStar.Seq.Base.seq",
"Vale.X64.Memory.nat32",
"Vale.X64.Decls.quad32",
"Vale.X64.QuickCodes.fuel",
"Prims.unit",
"FStar.Pervasives.Native.Mktuple2",
"Vale.X64.Decls.va_fuel",
"Vale.X64.QuickCode.va_lemma_norm_mods",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_Mod_mem_heaplet",
"Vale.X64.QuickCode.va_Mod_flags",
"Vale.X64.QuickCode.va_Mod_xmm",
"Vale.X64.QuickCode.va_Mod_ok",
"Vale.X64.QuickCode.va_Mod_mem",
"Prims.Nil",
"FStar.Pervasives.assert_norm",
"Prims.eq2",
"Prims.list",
"Vale.X64.QuickCode.__proj__QProc__item__mods",
"Vale.AES.X64.AESopt.va_code_Loop6x_round9",
"FStar.Pervasives.Native.tuple2",
"FStar.Pervasives.Native.tuple3",
"Vale.X64.State.vale_state",
"Vale.X64.QuickCodes.va_wp_sound_code_norm",
"Prims.l_and",
"Vale.X64.QuickCodes.label",
"Vale.X64.QuickCodes.va_range1",
"Prims.b2t",
"Vale.X64.Decls.va_get_ok",
"Vale.X64.Decls.modifies_buffer_specific128",
"Vale.X64.Decls.va_get_mem_heaplet",
"FStar.Pervasives.Native.tuple6",
"FStar.Pervasives.Native.Mktuple6",
"Vale.X64.Decls.va_get_xmm",
"Vale.AES.X64.AESopt.make_six_of",
"Vale.X64.Decls.va_int_range",
"Vale.Def.Types_s.quad32_xor",
"FStar.Seq.Base.index",
"Vale.Def.Types_s.quad32",
"Vale.AES.AES_common_s.nr",
"Vale.X64.Decls.buffer128_read",
"Prims.op_Addition",
"Prims.op_Multiply",
"Vale.X64.QuickCode.quickCode",
"Vale.AES.X64.AESopt.va_qcode_Loop6x_round9"
] | [] | false | false | false | false | false | let va_lemma_Loop6x_round9 va_b0 va_s0 alg count in_b scratch_b key_words round_keys keys_b =
| let va_mods:va_mods_t =
[
va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 3;
va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_ok; va_Mod_mem
]
in
let va_qc = va_qcode_Loop6x_round9 va_mods alg count in_b scratch_b key_words round_keys keys_b in
let va_sM, va_fM, va_g =
va_wp_sound_code_norm (va_code_Loop6x_round9 alg)
va_qc
va_s0
(fun va_s0 va_sM va_g ->
let () = va_g in
label va_range1
"***** POSTCONDITION NOT MET AT line 535 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\
(label va_range1
"***** POSTCONDITION NOT MET AT line 561 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b
(va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM)
1
1) /\
label va_range1
"***** POSTCONDITION NOT MET AT line 563 column 102 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 2 va_sM,
va_get_xmm 0 va_sM,
va_get_xmm 5 va_sM,
va_get_xmm 6 va_sM,
va_get_xmm 7 va_sM,
va_get_xmm 3 va_sM) ==
make_six_of #quad32
(fun (i: (va_int_range 0 5)) ->
Vale.Def.Types_s.quad32_xor (FStar.Seq.Base.index #Vale.Def.Types_s.quad32
round_keys
(Vale.AES.AES_common_s.nr alg))
(Vale.X64.Decls.buffer128_read in_b
(count `op_Multiply` 6 + i)
(va_get_mem_heaplet 6 va_sM)))) /\
label va_range1
"***** POSTCONDITION NOT MET AT line 564 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) ==
va_get_xmm 7 va_s0)))
in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([
va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 3;
va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_ok; va_Mod_mem
])
va_sM
va_s0;
(va_sM, va_fM) | false |
Pulse.Syntax.Builder.fst | Pulse.Syntax.Builder.tm_par | val tm_par : pre1: Pulse.Syntax.Base.term ->
body1: Pulse.Syntax.Base.st_term ->
post1: Pulse.Syntax.Base.term ->
pre2: Pulse.Syntax.Base.term ->
body2: Pulse.Syntax.Base.st_term ->
post2: Pulse.Syntax.Base.term
-> Pulse.Syntax.Base.st_term' | let tm_par pre1 body1 post1 pre2 body2 post2 = Tm_Par { pre1; body1; post1; pre2; body2; post2 } | {
"file_name": "lib/steel/pulse/Pulse.Syntax.Builder.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 96,
"end_line": 34,
"start_col": 0,
"start_line": 34
} | (*
Copyright 2023 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.
*)
module Pulse.Syntax.Builder
open Pulse.Syntax
let pat_var s = Pat_Var s
let pat_const c = Pat_Constant c
let pat_cons fv vs = Pat_Cons fv vs
let tm_return expected_type insert_eq term = Tm_Return { expected_type; insert_eq; term }
let tm_abs b q ascription body = Tm_Abs { b; q; ascription; body }
let tm_stapp head arg_qual arg = Tm_STApp { head; arg_qual; arg }
let tm_bind binder head body = Tm_Bind { binder; head; body }
let tm_totbind binder head body = Tm_TotBind { binder; head; body }
let tm_if b then_ else_ post = Tm_If { b; then_; else_; post }
let tm_match sc returns_ brs = Tm_Match {sc; returns_; brs}
let tm_elim_exists p = Tm_ElimExists { p }
let tm_intro_exists p witnesses = Tm_IntroExists { p; witnesses } | {
"checked_file": "/",
"dependencies": [
"Pulse.Syntax.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Syntax.Builder.fst"
} | [
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"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 |
pre1: Pulse.Syntax.Base.term ->
body1: Pulse.Syntax.Base.st_term ->
post1: Pulse.Syntax.Base.term ->
pre2: Pulse.Syntax.Base.term ->
body2: Pulse.Syntax.Base.st_term ->
post2: Pulse.Syntax.Base.term
-> Pulse.Syntax.Base.st_term' | Prims.Tot | [
"total"
] | [] | [
"Pulse.Syntax.Base.term",
"Pulse.Syntax.Base.st_term",
"Pulse.Syntax.Base.Tm_Par",
"Pulse.Syntax.Base.Mkst_term'__Tm_Par__payload",
"Pulse.Syntax.Base.st_term'"
] | [] | false | false | false | true | false | let tm_par pre1 body1 post1 pre2 body2 post2 =
| Tm_Par ({ pre1 = pre1; body1 = body1; post1 = post1; pre2 = pre2; body2 = body2; post2 = post2 }) | false |
|
Vale.PPC64LE.InsStack.fst | Vale.PPC64LE.InsStack.va_code_Load_stack64 | val va_code_Load_stack64 : dst:va_operand_reg_opr -> offset:int -> Tot va_code | val va_code_Load_stack64 : dst:va_operand_reg_opr -> offset:int -> Tot va_code | let va_code_Load_stack64 dst offset =
(Ins (S.LoadStack64 dst Secret offset)) | {
"file_name": "obj/Vale.PPC64LE.InsStack.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 41,
"end_line": 173,
"start_col": 0,
"start_line": 172
} | module Vale.PPC64LE.InsStack
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
open Vale.PPC64LE.State
open Vale.PPC64LE.StateLemmas
open Vale.PPC64LE.Decls
open Vale.PPC64LE.InsBasic
open Vale.PPC64LE.InsVector
open Vale.PPC64LE.Stack_Sems
module S = Vale.PPC64LE.Semantics_s
module P = Vale.PPC64LE.Print_s
friend Vale.PPC64LE.Decls
friend Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Stack_Sems
#reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 200"
//-- Alloc_stack
[@ "opaque_to_smt"]
let va_code_Alloc_stack n =
(Ins (S.Alloc n))
[@ "opaque_to_smt"]
let va_codegen_success_Alloc_stack n =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Alloc_stack va_b0 va_s0 n =
va_reveal_opaque (`%va_code_Alloc_stack) (va_code_Alloc_stack n);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Alloc n)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Alloc n)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Alloc_stack n va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Alloc_stack (va_code_Alloc_stack n) va_s0 n in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_reg 1 va_sM (va_update_ok va_sM va_s0)));
va_lemma_norm_mods ([va_Mod_reg 1]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Dealloc_stack
[@ "opaque_to_smt"]
let va_code_Dealloc_stack n =
(Ins (S.Dealloc n))
[@ "opaque_to_smt"]
let va_codegen_success_Dealloc_stack n =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Dealloc_stack va_b0 va_s0 n =
va_reveal_opaque (`%va_code_Dealloc_stack) (va_code_Dealloc_stack n);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Dealloc n)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Dealloc n)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Dealloc_stack n va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Dealloc_stack (va_code_Dealloc_stack n) va_s0 n in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_stack va_sM (va_update_reg 1 va_sM (va_update_ok va_sM
va_s0))));
va_lemma_norm_mods ([va_Mod_stack; va_Mod_reg 1]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Store_stack128
[@ "opaque_to_smt"]
let va_code_Store_stack128 src offset =
(Ins (S.StoreStack128 src Secret offset))
[@ "opaque_to_smt"]
let va_codegen_success_Store_stack128 src offset =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Store_stack128 va_b0 va_s0 src offset =
va_reveal_opaque (`%va_code_Store_stack128) (va_code_Store_stack128 src offset);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.StoreStack128 src Secret offset)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.StoreStack128 src Secret offset)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Store_stack128 src offset va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Store_stack128 (va_code_Store_stack128 src offset) va_s0 src offset
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_stackTaint va_sM (va_update_stack va_sM (va_update_ok va_sM
va_s0))));
va_lemma_norm_mods ([va_Mod_stackTaint; va_Mod_stack]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Load_stack128
[@ "opaque_to_smt"]
let va_code_Load_stack128 dst offset =
(Ins (S.LoadStack128 dst Secret offset))
[@ "opaque_to_smt"]
let va_codegen_success_Load_stack128 dst offset =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Load_stack128 va_b0 va_s0 dst offset =
va_reveal_opaque (`%va_code_Load_stack128) (va_code_Load_stack128 dst offset);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadStack128 dst Secret offset)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadStack128 dst Secret offset)) va_s0 in
Vale.PPC64LE.Stack_i.lemma_valid_taint_stack128 (va_get_reg 1 va_old_s + offset) Secret
(va_get_stackTaint va_old_s);
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Load_stack128 dst offset va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_stack128 (va_code_Load_stack128 dst offset) va_s0 dst offset in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Store_stack64
[@ "opaque_to_smt"]
let va_code_Store_stack64 src offset =
(Ins (S.StoreStack64 src Secret offset))
[@ "opaque_to_smt"]
let va_codegen_success_Store_stack64 src offset =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Store_stack64 va_b0 va_s0 src offset =
va_reveal_opaque (`%va_code_Store_stack64) (va_code_Store_stack64 src offset);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.StoreStack64 src Secret offset)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.StoreStack64 src Secret offset)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Store_stack64 src offset va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Store_stack64 (va_code_Store_stack64 src offset) va_s0 src offset in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_stackTaint va_sM (va_update_stack va_sM (va_update_ok va_sM
va_s0))));
va_lemma_norm_mods ([va_Mod_stackTaint; va_Mod_stack]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Load_stack64 | {
"checked_file": "/",
"dependencies": [
"Vale.PPC64LE.StateLemmas.fsti.checked",
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_Sems.fst.checked",
"Vale.PPC64LE.Stack_Sems.fst.checked",
"Vale.PPC64LE.Stack_i.fst.checked",
"Vale.PPC64LE.Stack_i.fst.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Print_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.checked",
"Vale.PPC64LE.InsVector.fsti.checked",
"Vale.PPC64LE.InsBasic.fsti.checked",
"Vale.PPC64LE.Decls.fst.checked",
"Vale.PPC64LE.Decls.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": true,
"source_file": "Vale.PPC64LE.InsStack.fst"
} | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Stack_Sems",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Stack_Sems",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.InsVector",
"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.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"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.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"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": 200,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | dst: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Prims.int -> Vale.PPC64LE.Decls.va_code | Prims.Tot | [
"total"
] | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Prims.int",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Semantics_s.LoadStack64",
"Vale.Arch.HeapTypes_s.Secret",
"Vale.PPC64LE.Decls.va_code"
] | [] | false | false | false | true | false | let va_code_Load_stack64 dst offset =
| (Ins (S.LoadStack64 dst Secret offset)) | false |
Vale.AES.X64.AESopt.fst | Vale.AES.X64.AESopt.va_wpProof_Loop6x_final | val va_wpProof_Loop6x_final : alg:algorithm -> iv_b:buffer128 -> scratch_b:buffer128 ->
key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 ->
init:quad32_6 -> ctrs:quad32_6 -> plain:quad32_6 -> inb:quad32 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_final alg iv_b scratch_b key_words round_keys
keys_b ctr_orig init ctrs plain inb va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_final alg) ([va_Mod_mem_heaplet
3; va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm
2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11;
va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) | val va_wpProof_Loop6x_final : alg:algorithm -> iv_b:buffer128 -> scratch_b:buffer128 ->
key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> ctr_orig:quad32 ->
init:quad32_6 -> ctrs:quad32_6 -> plain:quad32_6 -> inb:quad32 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_final alg iv_b scratch_b key_words round_keys
keys_b ctr_orig init ctrs plain inb va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_final alg) ([va_Mod_mem_heaplet
3; va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm
2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11;
va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g)))) | let va_wpProof_Loop6x_final alg iv_b scratch_b key_words round_keys keys_b ctr_orig init ctrs plain
inb va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_final (va_code_Loop6x_final alg) va_s0 alg iv_b scratch_b
key_words round_keys keys_b ctr_orig init ctrs plain inb in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_flags va_sM (va_update_xmm 15
va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11
va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6
va_sM (va_update_xmm 5 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1
va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM
(va_update_reg64 rR11 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM
(va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))));
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm
13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 7; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR13;
va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM
va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"file_name": "obj/Vale.AES.X64.AESopt.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 22,
"end_line": 1687,
"start_col": 0,
"start_line": 1669
} | module Vale.AES.X64.AESopt
open FStar.Mul
open Vale.Def.Prop_s
open Vale.Def.Opaque_s
open Vale.Def.Words_s
open Vale.Def.Types_s
open FStar.Seq
open Vale.Arch.Types
open Vale.Arch.HeapImpl
open Vale.AES.AES_s
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.InsVector
open Vale.X64.InsAes
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.AES.AES_helpers
//open Vale.Poly1305.Math // For lemma_poly_bits64()
open Vale.AES.GCM_helpers
open Vale.AES.GCTR_s
open Vale.AES.GCTR
open Vale.Arch.TypesNative
open Vale.X64.CPU_Features_s
open Vale.Math.Poly2_s
open Vale.AES.GF128_s
open Vale.AES.GF128
open Vale.AES.GHash
open Vale.AES.X64.PolyOps
open Vale.AES.X64.AESopt2
open Vale.AES.X64.AESGCM_expected_code
open Vale.Transformers.Transform
open FStar.Mul
let add = Vale.Math.Poly2_s.add
#reset-options "--z3rlimit 30"
//-- finish_aes_encrypt_le
val finish_aes_encrypt_le : alg:algorithm -> input_LE:quad32 -> key:(seq nat32)
-> Lemma
(requires (Vale.AES.AES_s.is_aes_key_LE alg key))
(ensures (Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg
input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)))
let finish_aes_encrypt_le alg input_LE key =
Vale.AES.AES_s.aes_encrypt_LE_reveal ();
Vale.AES.AES_s.eval_cipher_reveal ();
()
//--
//-- Load_two_lsb
[@ "opaque_to_smt"]
let va_code_Load_two_lsb dst =
(va_Block (va_CCons (va_code_ZeroXmm dst) (va_CCons (va_code_PinsrqImm dst 2 0
(va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
[@ "opaque_to_smt"]
let va_codegen_success_Load_two_lsb dst =
(va_pbool_and (va_codegen_success_ZeroXmm dst) (va_pbool_and (va_codegen_success_PinsrqImm dst 2
0 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ())))
[@"opaque_to_smt"]
let va_lemma_Load_two_lsb va_b0 va_s0 dst =
va_reveal_opaque (`%va_code_Load_two_lsb) (va_code_Load_two_lsb dst);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s3, va_fc3) = va_lemma_ZeroXmm (va_hd va_b1) va_s0 dst in
let va_b3 = va_tl va_b1 in
Vale.Arch.Types.lemma_insert_nat64_nat32s (va_eval_xmm va_s3 dst) 2 0;
assert (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 2 0) == 2);
let (va_s6, va_fc6) = va_lemma_PinsrqImm (va_hd va_b3) va_s3 dst 2 0 (va_op_reg_opr64_reg64 rR11)
in
let va_b6 = va_tl va_b3 in
let (va_sM, va_f6) = va_lemma_empty_total va_s6 va_b6 in
let va_f3 = va_lemma_merge_total va_b3 va_s3 va_fc6 va_s6 va_f6 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc3 va_s3 va_f3 va_sM in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Load_two_lsb dst va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_two_lsb (va_code_Load_two_lsb dst) va_s0 dst in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Load_0xc2_msb
val va_code_Load_0xc2_msb : dst:va_operand_xmm -> Tot va_code
[@ "opaque_to_smt"]
let va_code_Load_0xc2_msb dst =
(va_Block (va_CCons (va_code_ZeroXmm dst) (va_CCons (va_code_PinsrqImm dst 13979173243358019584 1
(va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
val va_codegen_success_Load_0xc2_msb : dst:va_operand_xmm -> Tot va_pbool
[@ "opaque_to_smt"]
let va_codegen_success_Load_0xc2_msb dst =
(va_pbool_and (va_codegen_success_ZeroXmm dst) (va_pbool_and (va_codegen_success_PinsrqImm dst
13979173243358019584 1 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ())))
val va_lemma_Load_0xc2_msb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load_0xc2_msb dst) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 3254779904 /\
va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))))
[@"opaque_to_smt"]
let va_lemma_Load_0xc2_msb va_b0 va_s0 dst =
va_reveal_opaque (`%va_code_Load_0xc2_msb) (va_code_Load_0xc2_msb dst);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s3, va_fc3) = va_lemma_ZeroXmm (va_hd va_b1) va_s0 dst in
let va_b3 = va_tl va_b1 in
assert (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 0
3254779904) == 13979173243358019584);
Vale.Arch.Types.lemma_insert_nat64_nat32s (va_eval_xmm va_s3 dst) 0 3254779904;
let (va_s6, va_fc6) = va_lemma_PinsrqImm (va_hd va_b3) va_s3 dst 13979173243358019584 1
(va_op_reg_opr64_reg64 rR11) in
let va_b6 = va_tl va_b3 in
let (va_sM, va_f6) = va_lemma_empty_total va_s6 va_b6 in
let va_f3 = va_lemma_merge_total va_b3 va_s3 va_fc6 va_s6 va_f6 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc3 va_s3 va_f3 va_sM in
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Load_0xc2_msb (dst:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_dst:va_value_xmm)
(va_x_r11:nat64) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_reg64
rR11 va_x_r11 (va_upd_operand_xmm dst va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM
dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 3254779904 ==> va_k va_sM (())))
val va_wpProof_Load_0xc2_msb : dst:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit ->
Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Load_0xc2_msb dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load_0xc2_msb dst) ([va_Mod_flags;
va_Mod_reg64 rR11; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Load_0xc2_msb dst va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_0xc2_msb (va_code_Load_0xc2_msb dst) va_s0 dst in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Load_0xc2_msb (dst:va_operand_xmm) : (va_quickCode unit (va_code_Load_0xc2_msb dst)) =
(va_QProc (va_code_Load_0xc2_msb dst) ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst])
(va_wp_Load_0xc2_msb dst) (va_wpProof_Load_0xc2_msb dst))
//--
//-- Load_one_lsb
[@ "opaque_to_smt"]
let va_code_Load_one_lsb dst =
(va_Block (va_CCons (va_code_ZeroXmm dst) (va_CCons (va_code_PinsrqImm dst 1 0
(va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
[@ "opaque_to_smt"]
let va_codegen_success_Load_one_lsb dst =
(va_pbool_and (va_codegen_success_ZeroXmm dst) (va_pbool_and (va_codegen_success_PinsrqImm dst 1
0 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ())))
[@"opaque_to_smt"]
let va_lemma_Load_one_lsb va_b0 va_s0 dst =
va_reveal_opaque (`%va_code_Load_one_lsb) (va_code_Load_one_lsb dst);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s3, va_fc3) = va_lemma_ZeroXmm (va_hd va_b1) va_s0 dst in
let va_b3 = va_tl va_b1 in
Vale.Arch.Types.lemma_insert_nat64_nat32s (va_eval_xmm va_s3 dst) 1 0;
assert (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 1 0) == 1);
let (va_s6, va_fc6) = va_lemma_PinsrqImm (va_hd va_b3) va_s3 dst 1 0 (va_op_reg_opr64_reg64 rR11)
in
let va_b6 = va_tl va_b3 in
let (va_sM, va_f6) = va_lemma_empty_total va_s6 va_b6 in
let va_f3 = va_lemma_merge_total va_b3 va_s3 va_fc6 va_s6 va_f6 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc3 va_s3 va_f3 va_sM in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Load_one_lsb dst va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_one_lsb (va_code_Load_one_lsb dst) va_s0 dst in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Handle_ctr32
val va_code_Handle_ctr32 : va_dummy:unit -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Handle_ctr32 () =
(va_Block (va_CCons (va_code_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR11))
(va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons
(va_code_Load_one_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10)
(va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_Load_two_lsb (va_op_xmm_xmm 5))
(va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CNil
()))))))))))))))))))))
val va_codegen_success_Handle_ctr32 : va_dummy:unit -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Handle_ctr32 () =
(va_pbool_and (va_codegen_success_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR11))
(va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm
0)) (va_pbool_and (va_codegen_success_Load_one_lsb (va_op_xmm_xmm 5)) (va_pbool_and
(va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5))
(va_pbool_and (va_codegen_success_Load_two_lsb (va_op_xmm_xmm 5)) (va_pbool_and
(va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5))
(va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm
5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10)
(va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm
11) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm
10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_pbool_and (va_codegen_success_VPaddd
(va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_pbool_and
(va_codegen_success_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0))
(va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm
15)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13)
(va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm
13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 14)
(va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm
1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_ttrue ())))))))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Handle_ctr32 (va_mods:va_mods_t) (ctr_BE:quad32) : (va_quickCode unit
(va_code_Handle_ctr32 ())) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 256 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR11)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 257 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 261 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load_one_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 262 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 263 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load_two_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 264 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 265 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 266 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 267 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 268 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 269 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 270 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 271 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 272 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 273 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 274 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 275 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 276 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QEmpty
(())))))))))))))))))))))
val va_lemma_Handle_ctr32 : va_b0:va_code -> va_s0:va_state -> ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Handle_ctr32 ()) va_s0 /\ va_get_ok va_s0 /\
(avx_enabled /\ sse_enabled /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32
ctr_BE)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM, va_get_xmm
14 va_sM, va_get_xmm 1 va_sM) == xor_reverse_inc32lite_6 2 1 ctr_BE (va_get_xmm 15 va_sM) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM
(va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM
(va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Handle_ctr32 va_b0 va_s0 ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm
11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR11; va_Mod_ok] in
let va_qc = va_qcode_Handle_ctr32 va_mods ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Handle_ctr32 ()) va_qc va_s0 (fun va_s0
va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 234 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 254 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM,
va_get_xmm 14 va_sM, va_get_xmm 1 va_sM) == xor_reverse_inc32lite_6 2 1 ctr_BE (va_get_xmm 15
va_sM))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Handle_ctr32 (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE) /\ (forall (va_x_r11:nat64) (va_x_xmm0:quad32)
(va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm10:quad32)
(va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14
(va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10
va_x_xmm10 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm
1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR11 va_x_r11 va_s0))))))))))) in va_get_ok
va_sM /\ (va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM,
va_get_xmm 14 va_sM, va_get_xmm 1 va_sM) == xor_reverse_inc32lite_6 2 1 ctr_BE (va_get_xmm 15
va_sM) ==> va_k va_sM (())))
val va_wpProof_Handle_ctr32 : ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Handle_ctr32 ctr_BE va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Handle_ctr32 ()) ([va_Mod_flags;
va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM,
va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Handle_ctr32 ctr_BE va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Handle_ctr32 (va_code_Handle_ctr32 ()) va_s0 ctr_BE in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM
(va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM
(va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR11]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Handle_ctr32 (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32 ())) =
(va_QProc (va_code_Handle_ctr32 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12;
va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1;
va_Mod_xmm 0; va_Mod_reg64 rR11]) (va_wp_Handle_ctr32 ctr_BE) (va_wpProof_Handle_ctr32 ctr_BE))
//--
//-- Loop6x_ctr_update
val va_code_Loop6x_ctr_update : alg:algorithm -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_ctr_update alg =
(va_Block (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (va_CCons
(va_IfElse (va_cmp_ge (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (va_Block (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret) (va_CCons (va_code_Handle_ctr32 ()) (va_CCons (va_code_Sub64
(va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_CNil ()))))) (va_Block (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)
(va_op_xmm_xmm 14)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10)
(va_op_opr128_xmm 15)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11)
(va_op_opr128_xmm 15)) (va_CNil ()))))))) (va_CNil ()))))
val va_codegen_success_Loop6x_ctr_update : alg:algorithm -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_ctr_update alg =
(va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6))
(va_pbool_and (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0)
(va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rR9) (0 - 32) Secret) (va_pbool_and
(va_codegen_success_Handle_ctr32 ()) (va_pbool_and (va_codegen_success_Sub64
(va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_pbool_and
(va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3)
(va_op_reg_opr64_reg64 rR9) (0 - 32) Secret) (va_pbool_and (va_codegen_success_VPaddd
(va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 14)) (va_pbool_and (va_codegen_success_VPxor
(va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_codegen_success_VPxor
(va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)))))))) (va_ttrue ())))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_ctr_update (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (key_words:(seq
nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) :
(va_quickCode unit (va_code_Loop6x_ctr_update alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_QBind va_range1
"***** PRECONDITION NOT MET AT line 339 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (fun (va_s:va_state) _ ->
va_QBind va_range1
"***** PRECONDITION NOT MET AT line 340 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_qIf va_mods (Cmp_ge (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (qblock va_mods (fun
(va_s:va_state) -> va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 341 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret hkeys_b 0) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 342 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Handle_ctr32 ctr_BE) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 343 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_QEmpty (())))))) (qblock
va_mods (fun (va_s:va_state) -> va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 345 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret hkeys_b 0) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 346 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 14)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 347 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_QBind
va_range1
"***** PRECONDITION NOT MET AT line 348 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg36:Prims.nat) = va_get_reg64 rRbx va_old_s in let
(va_arg35:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg34:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let
(va_arg33:Vale.Def.Types_s.quad32) = ctr_BE in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 349 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_msb_in_bounds va_arg33 va_arg34 va_arg35 va_arg36)
(va_QEmpty (()))))))))) (fun (va_s:va_state) va_g -> va_QEmpty (())))))
val va_lemma_Loop6x_ctr_update : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 ->
key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 ->
ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_ctr_update alg) va_s0 /\ va_get_ok va_s0 /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ aes_reqs_offset alg key_words
round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout
va_s0) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216
/\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE
0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus`
256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_get_xmm 1 va_sM ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64
rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == xor_reverse_inc32lite_6 3 0 ctr_BE (va_get_xmm 15
va_sM) /\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0
va_sM)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13
va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9
va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1
va_sM (va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64 rR11 va_sM
(va_update_reg64 rRbx va_sM (va_update_ok va_sM va_s0))))))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_ctr_update va_b0 va_s0 alg h_LE key_words round_keys keys_b hkeys_b ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm
11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1;
va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok] in
let va_qc = va_qcode_Loop6x_ctr_update va_mods alg h_LE key_words round_keys keys_b hkeys_b
ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_ctr_update alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 279 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in label va_range1
"***** POSTCONDITION NOT MET AT line 330 column 57 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE
6)) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 331 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 332 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite
ctr_BE 6) `op_Modulus` 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 334 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == xor_reverse_inc32lite_6 3 0 ctr_BE (va_get_xmm 15 va_sM)) /\
label va_range1
"***** POSTCONDITION NOT MET AT line 335 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_sM))))
in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm
0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_ctr_update (alg:algorithm) (h_LE:quad32) (key_words:(seq nat32)) (round_keys:(seq
quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ aes_reqs_offset alg key_words
round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout
va_s0) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216
/\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE
0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus`
256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h) /\ (forall (va_x_rbx:nat64) (va_x_r11:nat64)
(va_x_xmm3:quad32) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32)
(va_x_xmm6:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32)
(va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm
12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9
(va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1
(va_upd_xmm 0 va_x_xmm0 (va_upd_xmm 3 va_x_xmm3 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx
va_x_rbx va_s0)))))))))))))) in va_get_ok va_sM /\ (let (h:Vale.Math.Poly2_s.poly) =
Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_get_xmm 1
va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <=
va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == xor_reverse_inc32lite_6 3 0 ctr_BE (va_get_xmm 15
va_sM) /\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0
va_sM)) ==> va_k va_sM (())))
val va_wpProof_Loop6x_ctr_update : alg:algorithm -> h_LE:quad32 -> key_words:(seq nat32) ->
round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE:quad32 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_ctr_update alg h_LE key_words round_keys keys_b
hkeys_b ctr_BE va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_ctr_update alg) ([va_Mod_flags;
va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9;
va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3;
va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_ctr_update (va_code_Loop6x_ctr_update alg) va_s0 alg h_LE
key_words round_keys keys_b hkeys_b ctr_BE in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM
(va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM
(va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx
va_sM (va_update_ok va_sM va_s0)))))))))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm
0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_ctr_update (alg:algorithm) (h_LE:quad32) (key_words:(seq nat32))
(round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) : (va_quickCode
unit (va_code_Loop6x_ctr_update alg)) =
(va_QProc (va_code_Loop6x_ctr_update alg) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5;
va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx])
(va_wp_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE)
(va_wpProof_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE))
//--
//-- Loop6x_plain
val va_code_Loop6x_plain : alg:algorithm -> rnd:nat -> rndkey:va_operand_xmm -> Tot va_code
[@ "opaque_to_smt"]
let va_code_Loop6x_plain alg rnd rndkey =
(va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) rndkey
(va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 1) - 128) Secret) (va_CCons
(va_code_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) rndkey) (va_CCons (va_code_VAESNI_enc
(va_op_xmm_xmm 10) (va_op_xmm_xmm 10) rndkey) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) rndkey) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12)
rndkey) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) rndkey) (va_CCons
(va_code_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) rndkey) (va_CNil ())))))))))
val va_codegen_success_Loop6x_plain : alg:algorithm -> rnd:nat -> rndkey:va_operand_xmm -> Tot
va_pbool
[@ "opaque_to_smt"]
let va_codegen_success_Loop6x_plain alg rnd rndkey =
(va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) rndkey
(va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 1) - 128) Secret) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) rndkey) (va_ttrue
()))))))))
val va_lemma_Loop6x_plain : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> rnd:nat ->
key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init:quad32_6 ->
rndkey:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_plain alg rnd rndkey) va_s0 /\ va_is_dst_xmm
rndkey va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ (rndkey == 1 \/ rndkey == 2 \/ rndkey == 15)
/\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 1 < FStar.Seq.Base.length
#quad32 round_keys /\ (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm
12 va_s0, va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == rounds_opaque_6 init round_keys rnd)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys (rnd + 1) /\ va_state_eq
va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12
va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok
va_sM (va_update_operand_xmm rndkey va_sM va_s0)))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_plain va_b0 va_s0 alg rnd key_words round_keys keys_b init rndkey =
va_reveal_opaque (`%va_code_Loop6x_plain) (va_code_Loop6x_plain alg rnd rndkey);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s9, va_fc9) = va_lemma_Load128_buffer (va_hd va_b1) va_s0 (va_op_heaplet_mem_heaplet 0)
rndkey (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 1) - 128) Secret keys_b (rnd + 1)
in
let va_b9 = va_tl va_b1 in
let (va_s10, va_fc10) = va_lemma_VAESNI_enc (va_hd va_b9) va_s9 (va_op_xmm_xmm 9) (va_op_xmm_xmm
9) rndkey in
let va_b10 = va_tl va_b9 in
let (va_s11, va_fc11) = va_lemma_VAESNI_enc (va_hd va_b10) va_s10 (va_op_xmm_xmm 10)
(va_op_xmm_xmm 10) rndkey in
let va_b11 = va_tl va_b10 in
let (va_s12, va_fc12) = va_lemma_VAESNI_enc (va_hd va_b11) va_s11 (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) rndkey in
let va_b12 = va_tl va_b11 in
let (va_s13, va_fc13) = va_lemma_VAESNI_enc (va_hd va_b12) va_s12 (va_op_xmm_xmm 12)
(va_op_xmm_xmm 12) rndkey in
let va_b13 = va_tl va_b12 in
let (va_s14, va_fc14) = va_lemma_VAESNI_enc (va_hd va_b13) va_s13 (va_op_xmm_xmm 13)
(va_op_xmm_xmm 13) rndkey in
let va_b14 = va_tl va_b13 in
let (va_s15, va_fc15) = va_lemma_VAESNI_enc (va_hd va_b14) va_s14 (va_op_xmm_xmm 14)
(va_op_xmm_xmm 14) rndkey in
let va_b15 = va_tl va_b14 in
Vale.AES.AES_s.eval_rounds_reveal ();
Vale.AES.AES_helpers.commute_sub_bytes_shift_rows_forall ();
let (va_sM, va_f15) = va_lemma_empty_total va_s15 va_b15 in
let va_f14 = va_lemma_merge_total va_b14 va_s14 va_fc15 va_s15 va_f15 va_sM in
let va_f13 = va_lemma_merge_total va_b13 va_s13 va_fc14 va_s14 va_f14 va_sM in
let va_f12 = va_lemma_merge_total va_b12 va_s12 va_fc13 va_s13 va_f13 va_sM in
let va_f11 = va_lemma_merge_total va_b11 va_s11 va_fc12 va_s12 va_f12 va_sM in
let va_f10 = va_lemma_merge_total va_b10 va_s10 va_fc11 va_s11 va_f11 va_sM in
let va_f9 = va_lemma_merge_total va_b9 va_s9 va_fc10 va_s10 va_f10 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc9 va_s9 va_f9 va_sM in
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_plain (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32))
(keys_b:buffer128) (init:quad32_6) (rndkey:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm rndkey va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ (rndkey == 1 \/ rndkey == 2 \/
rndkey == 15) /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 1 < FStar.Seq.Base.length
#quad32 round_keys /\ (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm
12 va_s0, va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == rounds_opaque_6 init round_keys rnd) /\
(forall (va_x_rndkey:va_value_xmm) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32)
(va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm
12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9
(va_upd_operand_xmm rndkey va_x_rndkey va_s0))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM,
va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM, va_get_xmm
14 va_sM) == rounds_opaque_6 init round_keys (rnd + 1) ==> va_k va_sM (())))
val va_wpProof_Loop6x_plain : alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq
quad32) -> keys_b:buffer128 -> init:quad32_6 -> rndkey:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_plain alg rnd key_words round_keys keys_b init
rndkey va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_plain alg rnd rndkey)
([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10;
va_Mod_xmm 9; va_mod_xmm rndkey]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_plain alg rnd key_words round_keys keys_b init rndkey va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_plain (va_code_Loop6x_plain alg rnd rndkey) va_s0 alg rnd
key_words round_keys keys_b init rndkey in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM
(va_update_ok va_sM (va_update_operand_xmm rndkey va_sM va_s0))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_mod_xmm rndkey]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_plain (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq
quad32)) (keys_b:buffer128) (init:quad32_6) (rndkey:va_operand_xmm) : (va_quickCode unit
(va_code_Loop6x_plain alg rnd rndkey)) =
(va_QProc (va_code_Loop6x_plain alg rnd rndkey) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_mod_xmm rndkey])
(va_wp_Loop6x_plain alg rnd key_words round_keys keys_b init rndkey) (va_wpProof_Loop6x_plain
alg rnd key_words round_keys keys_b init rndkey))
//--
//-- Loop6x_preamble
val va_code_Loop6x_preamble : alg:algorithm -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_preamble alg =
(va_Block (va_CCons (va_code_Loop6x_ctr_update alg) (va_CCons (va_code_Store128_buffer
(va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 128 Secret)
(va_CCons (va_code_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 15)) (va_CNil ())))))))
val va_codegen_success_Loop6x_preamble : alg:algorithm -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_preamble alg =
(va_pbool_and (va_codegen_success_Loop6x_ctr_update alg) (va_pbool_and
(va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_xmm_xmm 1) 128 Secret) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 12)
(va_op_xmm_xmm 12) (va_op_opr128_xmm 15)) (va_pbool_and (va_codegen_success_VPxor
(va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 15)) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 15))
(va_ttrue ()))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_preamble (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (iv_b:buffer128)
(scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128)
(hkeys_b:buffer128) (ctr_BE:quad32) : (va_quickCode unit (va_code_Loop6x_preamble alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_QBind va_range1
"***** PRECONDITION NOT MET AT line 477 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE) (fun
(va_s:va_state) _ -> let (va_arg43:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg42:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 479 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg42 va_arg43) (let
(va_arg41:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let
(va_arg40:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 480 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg40 va_arg41) (let
(va_arg39:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let
(va_arg38:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 481 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg38 va_arg39) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 498 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_xmm_xmm 1) 128 Secret scratch_b 8) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 499 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg37:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg36:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 499 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg36 va_arg37) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 500 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg35:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg34:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 500 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg34 va_arg35) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 501 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg33:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg32:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 501 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg32 va_arg33) (va_QEmpty
(()))))))))))))))
val va_lemma_Loop6x_preamble : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 ->
iv_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) ->
keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_preamble alg) va_s0 /\ va_get_ok va_s0 /\ (let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ Vale.X64.Decls.validDstAddrs128
(va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0)
Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 ==
FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx
va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9
va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in Vale.X64.Decls.modifies_buffer_specific128
scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 8 8 /\ (let init =
make_six_of #Vale.Def.Types_s.quad32 (fun (n:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor
(Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE n)) (va_get_xmm 15
va_sM)) in (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys 0 /\
Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64
rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_s0)))
/\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 14
va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10
va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2
va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64
rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM (va_update_mem va_sM
va_s0))))))))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_preamble va_b0 va_s0 alg h_LE iv_b scratch_b key_words round_keys keys_b
hkeys_b ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5;
va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx;
va_Mod_ok; va_Mod_mem] in
let va_qc = va_qcode_Loop6x_preamble va_mods alg h_LE iv_b scratch_b key_words round_keys keys_b
hkeys_b ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_preamble alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 402 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in label va_range1
"***** POSTCONDITION NOT MET AT line 459 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 8 8) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 464 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(let init = make_six_of #Vale.Def.Types_s.quad32 (fun (n:(va_int_range 0 5)) ->
Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite
ctr_BE n)) (va_get_xmm 15 va_sM)) in label va_range1
"***** POSTCONDITION NOT MET AT line 466 column 102 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys 0) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 469 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 472 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 473 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite
ctr_BE 6) `op_Modulus` 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 475 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_s0)))))
in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm
12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2;
va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok;
va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_preamble (alg:algorithm) (h_LE:quad32) (iv_b:buffer128) (scratch_b:buffer128)
(key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128)
(ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ Vale.X64.Decls.validDstAddrs128
(va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0)
Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 ==
FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx
va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9
va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h) /\ (forall (va_x_mem:vale_heap) (va_x_rbx:nat64)
(va_x_r11:nat64) (va_x_xmm3:quad32) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32)
(va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32)
(va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32)
(va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_mem_heaplet 3 va_x_heap3 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13
(va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9
va_x_xmm9 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1
va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_xmm 3 va_x_xmm3 (va_upd_reg64 rR11 va_x_r11
(va_upd_reg64 rRbx va_x_rbx (va_upd_mem va_x_mem va_s0)))))))))))))))) in va_get_ok va_sM /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in Vale.X64.Decls.modifies_buffer_specific128
scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 8 8 /\ (let init =
make_six_of #Vale.Def.Types_s.quad32 (fun (n:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor
(Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE n)) (va_get_xmm 15
va_sM)) in (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys 0 /\
Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64
rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_s0)))
==> va_k va_sM (())))
val va_wpProof_Loop6x_preamble : alg:algorithm -> h_LE:quad32 -> iv_b:buffer128 ->
scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 ->
hkeys_b:buffer128 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_preamble alg h_LE iv_b scratch_b key_words
round_keys keys_b hkeys_b ctr_BE va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_preamble alg) ([va_Mod_flags;
va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm
10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0,
va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_preamble alg h_LE iv_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE
va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_preamble (va_code_Loop6x_preamble alg) va_s0 alg h_LE iv_b
scratch_b key_words round_keys keys_b hkeys_b ctr_BE in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 14
va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10
va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2
va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64
rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM (va_update_mem va_sM
va_s0)))))))))))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm
12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2;
va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_mem])
va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_preamble (alg:algorithm) (h_LE:quad32) (iv_b:buffer128) (scratch_b:buffer128)
(key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128)
(ctr_BE:quad32) : (va_quickCode unit (va_code_Loop6x_preamble alg)) =
(va_QProc (va_code_Loop6x_preamble alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14;
va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11;
va_Mod_reg64 rRbx; va_Mod_mem]) (va_wp_Loop6x_preamble alg h_LE iv_b scratch_b key_words
round_keys keys_b hkeys_b ctr_BE) (va_wpProof_Loop6x_preamble alg h_LE iv_b scratch_b key_words
round_keys keys_b hkeys_b ctr_BE))
//--
//-- Loop6x_reverse128
val va_code_Loop6x_reverse128 : in0_offset:nat -> stack_offset:nat -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_reverse128 in0_offset stack_offset =
(va_Block (va_CCons (va_code_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rR13) (va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16 + 8)
Secret true) (va_CCons (va_code_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rR12) (va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16) Secret
false) (va_CCons (va_code_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR13) (stack_offset `op_Multiply` 16)
Secret false) (va_CCons (va_code_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR12) (stack_offset `op_Multiply` 16 + 8)
Secret true) (va_CNil ()))))))
val va_codegen_success_Loop6x_reverse128 : in0_offset:nat -> stack_offset:nat -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_reverse128 in0_offset stack_offset =
(va_pbool_and (va_codegen_success_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rR13) (va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16 + 8)
Secret true) (va_pbool_and (va_codegen_success_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rR12) (va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16) Secret
false) (va_pbool_and (va_codegen_success_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR13) (stack_offset `op_Multiply` 16)
Secret false) (va_pbool_and (va_codegen_success_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR12) (stack_offset `op_Multiply` 16 + 8)
Secret true) (va_ttrue ())))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_reverse128 (va_mods:va_mods_t) (in0_offset:nat) (stack_offset:nat) (start:nat)
(in0_b:buffer128) (scratch_b:buffer128) : (va_quickCode unit (va_code_Loop6x_reverse128
in0_offset stack_offset)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 527 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rR13)
(va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16 + 8) Secret true in0_b (start +
in0_offset)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 528 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rR12)
(va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16) Secret false in0_b (start +
in0_offset)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 529 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR13) (stack_offset `op_Multiply` 16) Secret false scratch_b
stack_offset) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 530 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR12) (stack_offset `op_Multiply` 16 + 8) Secret true scratch_b
stack_offset) (fun (va_s:va_state) _ -> let (va_arg10:Vale.Def.Types_s.quad32) =
Vale.X64.Decls.buffer128_read scratch_b stack_offset (va_get_mem_heaplet 3 va_s) in let
(va_arg9:Vale.Def.Types_s.quad32) = Vale.X64.Decls.buffer128_read scratch_b stack_offset
(va_get_mem_heaplet 3 va_old_s) in let (va_arg8:Vale.Def.Types_s.quad32) =
Vale.X64.Decls.buffer128_read in0_b (start + in0_offset) (va_get_mem_heaplet 6 va_old_s) in
va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 531 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.Arch.Types.lemma_reverse_bytes_quad32_64 va_arg8 va_arg9 va_arg10)
(va_QEmpty (()))))))))
val va_lemma_Loop6x_reverse128 : va_b0:va_code -> va_s0:va_state -> in0_offset:nat ->
stack_offset:nat -> start:nat -> in0_b:buffer128 -> scratch_b:buffer128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_reverse128 in0_offset stack_offset) va_s0 /\
va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128
(va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b start (in0_offset + 1)
(va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3
va_s0) (va_get_reg64 rRbp va_s0) scratch_b (stack_offset + 1) (va_get_mem_layout va_s0)
Secret)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) stack_offset stack_offset /\ Vale.X64.Decls.buffer128_read
scratch_b stack_offset (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32
(Vale.X64.Decls.buffer128_read in0_b (start + in0_offset) (va_get_mem_heaplet 6 va_s0))) /\
va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64
rR12 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_reverse128 va_b0 va_s0 in0_offset stack_offset start in0_b scratch_b =
let (va_mods:va_mods_t) = [va_Mod_mem_heaplet 3; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_ok;
va_Mod_mem] in
let va_qc = va_qcode_Loop6x_reverse128 va_mods in0_offset stack_offset start in0_b scratch_b in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_reverse128 in0_offset
stack_offset) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 504 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (label va_range1
"***** POSTCONDITION NOT MET AT line 523 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) stack_offset stack_offset) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 525 column 88 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b stack_offset (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (start + in0_offset)
(va_get_mem_heaplet 6 va_s0))))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_ok;
va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_reverse128 (in0_offset:nat) (stack_offset:nat) (start:nat) (in0_b:buffer128)
(scratch_b:buffer128) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128
(va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b start (in0_offset + 1)
(va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3
va_s0) (va_get_reg64 rRbp va_s0) scratch_b (stack_offset + 1) (va_get_mem_layout va_s0) Secret)
/\ (forall (va_x_mem:vale_heap) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_heap3:vale_heap) . let
va_sM = va_upd_mem_heaplet 3 va_x_heap3 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12
(va_upd_mem va_x_mem va_s0))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128
scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) stack_offset stack_offset
/\ Vale.X64.Decls.buffer128_read scratch_b stack_offset (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (start + in0_offset)
(va_get_mem_heaplet 6 va_s0))) ==> va_k va_sM (())))
val va_wpProof_Loop6x_reverse128 : in0_offset:nat -> stack_offset:nat -> start:nat ->
in0_b:buffer128 -> scratch_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_reverse128 in0_offset stack_offset start in0_b
scratch_b va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_reverse128 in0_offset
stack_offset) ([va_Mod_mem_heaplet 3; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_mem]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_reverse128 in0_offset stack_offset start in0_b scratch_b va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_reverse128 (va_code_Loop6x_reverse128 in0_offset
stack_offset) va_s0 in0_offset stack_offset start in0_b scratch_b in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR13 va_sM
(va_update_reg64 rR12 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))));
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_mem])
va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_reverse128 (in0_offset:nat) (stack_offset:nat) (start:nat) (in0_b:buffer128)
(scratch_b:buffer128) : (va_quickCode unit (va_code_Loop6x_reverse128 in0_offset stack_offset)) =
(va_QProc (va_code_Loop6x_reverse128 in0_offset stack_offset) ([va_Mod_mem_heaplet 3;
va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_mem]) (va_wp_Loop6x_reverse128 in0_offset
stack_offset start in0_b scratch_b) (va_wpProof_Loop6x_reverse128 in0_offset stack_offset start
in0_b scratch_b))
//--
//-- Loop6x_round9
val va_code_Loop6x_round9 : alg:algorithm -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_round9 alg =
(va_Block (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64
rRbp) (va_op_xmm_xmm 7) 16 Secret) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor
(va_op_xmm_xmm 2) (va_op_xmm_xmm 1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg64_reg64 rRdi) 0 Secret)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_CCons
(va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 1)
(va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret))
(va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm
1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret))
(va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 7) (va_op_xmm_xmm
1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret))
(va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm
1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret))
(va_CNil ())))))))))))))))
val va_codegen_success_Loop6x_round9 : alg:algorithm -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_round9 alg =
(va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 7) 16 Secret) (va_pbool_and
(va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 2)
(va_op_xmm_xmm 1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0
Secret)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_pbool_and
(va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 5)
(va_op_xmm_xmm 1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32
Secret)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_pbool_and
(va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 7)
(va_op_xmm_xmm 1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64
Secret)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (va_ttrue ()))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_round9 (va_mods:va_mods_t) (alg:algorithm) (count:nat) (in_b:buffer128)
(scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) :
(va_quickCode unit (va_code_Loop6x_round9 alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 567 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_xmm_xmm 7) 16 Secret scratch_b 1) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 568 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret in_b
(count `op_Multiply` 6 + 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 568 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 2) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 569 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret in_b
(count `op_Multiply` 6 + 1)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 569 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 570 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret in_b
(count `op_Multiply` 6 + 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 570 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 571 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret in_b
(count `op_Multiply` 6 + 3)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 571 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 572 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret in_b
(count `op_Multiply` 6 + 4)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 572 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 7) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 573 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret in_b
(count `op_Multiply` 6 + 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 573 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (va_QEmpty
(()))))))))))))))))
val va_lemma_Loop6x_round9 : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat ->
in_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) ->
keys_b:buffer128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_round9 alg) va_s0 /\ va_get_ok va_s0 /\
(sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0)
(va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\
Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0)
scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b
(va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm
1 va_s0 == Vale.X64.Decls.buffer128_read keys_b (Vale.AES.AES_common_s.nr alg)
(va_get_mem_heaplet 0 va_s0))))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 1 1 /\ (va_get_xmm 2 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5
va_sM, va_get_xmm 6 va_sM, va_get_xmm 7 va_sM, va_get_xmm 3 va_sM) == make_six_of #quad32 (fun
(i:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor (FStar.Seq.Base.index
#Vale.Def.Types_s.quad32 round_keys (Vale.AES.AES_common_s.nr alg))
(Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_sM)))
/\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 7
va_s0) /\ va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_flags va_sM
(va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 3 va_sM
(va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_ok va_sM
(va_update_mem va_sM va_s0)))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_round9 va_b0 va_s0 alg count in_b scratch_b key_words round_keys keys_b =
let (va_mods:va_mods_t) = [va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_ok; va_Mod_mem] in
let va_qc = va_qcode_Loop6x_round9 va_mods alg count in_b scratch_b key_words round_keys keys_b in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_round9 alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 535 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (label va_range1
"***** POSTCONDITION NOT MET AT line 561 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 1 1) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 563 column 102 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 2 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5 va_sM, va_get_xmm 6 va_sM, va_get_xmm 7
va_sM, va_get_xmm 3 va_sM) == make_six_of #quad32 (fun (i:(va_int_range 0 5)) ->
Vale.Def.Types_s.quad32_xor (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys
(Vale.AES.AES_common_s.nr alg)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i)
(va_get_mem_heaplet 6 va_sM)))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 564 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 7
va_s0))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm
5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_ok; va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_round9 (alg:algorithm) (count:nat) (in_b:buffer128) (scratch_b:buffer128)
(key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6
va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0)
Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp
va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys
keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\
va_get_xmm 1 va_s0 == Vale.X64.Decls.buffer128_read keys_b (Vale.AES.AES_common_s.nr alg)
(va_get_mem_heaplet 0 va_s0)) /\ (forall (va_x_mem:vale_heap) (va_x_xmm0:quad32)
(va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32)
(va_x_xmm7:quad32) (va_x_efl:Vale.X64.Flags.t) (va_x_heap3:vale_heap) . let va_sM =
va_upd_mem_heaplet 3 va_x_heap3 (va_upd_flags va_x_efl (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6
va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1
va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_mem va_x_mem va_s0))))))))) in va_get_ok va_sM /\
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 1 1 /\ (va_get_xmm 2 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5
va_sM, va_get_xmm 6 va_sM, va_get_xmm 7 va_sM, va_get_xmm 3 va_sM) == make_six_of #quad32 (fun
(i:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor (FStar.Seq.Base.index
#Vale.Def.Types_s.quad32 round_keys (Vale.AES.AES_common_s.nr alg))
(Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_sM)))
/\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 7
va_s0) ==> va_k va_sM (())))
val va_wpProof_Loop6x_round9 : alg:algorithm -> count:nat -> in_b:buffer128 -> scratch_b:buffer128
-> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_round9 alg count in_b scratch_b key_words
round_keys keys_b va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_round9 alg)
([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 3;
va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_round9 alg count in_b scratch_b key_words round_keys keys_b va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_round9 (va_code_Loop6x_round9 alg) va_s0 alg count in_b
scratch_b key_words round_keys keys_b in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_flags va_sM (va_update_xmm 7
va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2
va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_ok va_sM (va_update_mem va_sM
va_s0))))))))))));
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm
5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_mem]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_round9 (alg:algorithm) (count:nat) (in_b:buffer128) (scratch_b:buffer128)
(key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) : (va_quickCode unit
(va_code_Loop6x_round9 alg)) =
(va_QProc (va_code_Loop6x_round9 alg) ([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7;
va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_mem]) (va_wp_Loop6x_round9 alg count in_b scratch_b key_words round_keys keys_b)
(va_wpProof_Loop6x_round9 alg count in_b scratch_b key_words round_keys keys_b))
//--
//-- load_one_msb
val va_code_load_one_msb : va_dummy:unit -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_load_one_msb () =
(va_Block (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 2)) (va_CCons (va_code_PinsrqImm
(va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
val va_codegen_success_load_one_msb : va_dummy:unit -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_load_one_msb () =
(va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 2)) (va_pbool_and
(va_codegen_success_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64
rR11)) (va_ttrue ())))
[@ "opaque_to_smt" va_qattr]
let va_qcode_load_one_msb (va_mods:va_mods_t) : (va_quickCode unit (va_code_load_one_msb ())) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1
"***** PRECONDITION NOT MET AT line 583 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_ZeroXmm (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> va_qAssert va_range1
"***** PRECONDITION NOT MET AT line 584 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 0 16777216) ==
72057594037927936) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 585 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (fun
(va_s:va_state) _ -> va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 586 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.Def.Types_s.insert_nat64_reveal ()) (va_QEmpty (())))))))
val va_lemma_load_one_msb : va_b0:va_code -> va_s0:va_state
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_load_one_msb ()) va_s0 /\ va_get_ok va_s0 /\
sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\
va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11 va_sM
(va_update_ok va_sM va_s0))))))
[@"opaque_to_smt"]
let va_lemma_load_one_msb va_b0 va_s0 =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok] in
let va_qc = va_qcode_load_one_msb va_mods in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_load_one_msb ()) va_qc va_s0 (fun va_s0
va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 576 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 581 column 46 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216)) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_load_one_msb (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_r11:nat64) (va_x_xmm2:quad32)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 2 va_x_xmm2
(va_upd_reg64 rR11 va_x_r11 va_s0)) in va_get_ok va_sM /\ va_get_xmm 2 va_sM ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 ==> va_k va_sM (())))
val va_wpProof_load_one_msb : va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_load_one_msb va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_load_one_msb ()) ([va_Mod_flags;
va_Mod_xmm 2; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_load_one_msb va_s0 va_k =
let (va_sM, va_f0) = va_lemma_load_one_msb (va_code_load_one_msb ()) va_s0 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11
va_sM (va_update_ok va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_load_one_msb () : (va_quickCode unit (va_code_load_one_msb ())) =
(va_QProc (va_code_load_one_msb ()) ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11])
va_wp_load_one_msb va_wpProof_load_one_msb)
//--
//-- Loop6x_final
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_final alg =
(va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 1)
(va_op_reg_opr64_reg64 rRbp) 128 Secret) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 9)
(va_op_xmm_xmm 9) (va_op_xmm_xmm 2)) (va_CCons (va_code_load_one_msb ()) (va_CCons
(va_code_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_CCons
(va_code_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR13) (7 `op_Multiply` 16) Secret false) (va_CCons (va_code_AddLea64
(va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_CCons
(va_code_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 5) (va_op_xmm_xmm 0) (va_op_xmm_xmm 2)) (va_CCons
(va_code_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR12) (7 `op_Multiply` 16 + 8) Secret true) (va_CCons (va_code_AddLea64
(va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64
rRcx) (0 - 128) Secret) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm
12) (va_op_xmm_xmm 6)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)
(va_op_xmm_xmm 2)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13)
(va_op_xmm_xmm 7)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 7) (va_op_xmm_xmm 6) (va_op_xmm_xmm
2)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3))
(va_CCons (va_code_VPaddd (va_op_xmm_xmm 3) (va_op_xmm_xmm 7) (va_op_xmm_xmm 2)) (va_CNil
()))))))))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_final alg =
(va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 1)
(va_op_reg_opr64_reg64 rRbp) 128 Secret) (va_pbool_and (va_codegen_success_VAESNI_enc_last
(va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 2)) (va_pbool_and
(va_codegen_success_load_one_msb ()) (va_pbool_and (va_codegen_success_VAESNI_enc_last
(va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and
(va_codegen_success_VPaddd (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_pbool_and
(va_codegen_success_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64
rRbp) (va_op_reg_opr64_reg64 rR13) (7 `op_Multiply` 16) Secret false) (va_pbool_and
(va_codegen_success_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi)
(va_const_opr64 96)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm
5) (va_op_xmm_xmm 0) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_Store64_buffer128
(va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR12) (7
`op_Multiply` 16 + 8) Secret true) (va_pbool_and (va_codegen_success_AddLea64
(va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_pbool_and
(va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15)
(va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_pbool_and
(va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 6))
(va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 6) (va_op_xmm_xmm 5) (va_op_xmm_xmm 2))
(va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13)
(va_op_xmm_xmm 7)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 7) (va_op_xmm_xmm 6)
(va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 14)
(va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm
3) (va_op_xmm_xmm 7) (va_op_xmm_xmm 2)) (va_ttrue ())))))))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_final (va_mods:va_mods_t) (alg:algorithm) (iv_b:buffer128)
(scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128)
(ctr_orig:quad32) (init:quad32_6) (ctrs:quad32_6) (plain:quad32_6) (inb:quad32) : (va_quickCode
unit (va_code_Loop6x_final alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 667 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.Arch.TypesNative.lemma_quad32_xor_commutes_forall ()) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 669 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 1) (va_op_reg_opr64_reg64
rRbp) 128 Secret scratch_b 8) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 671 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 2)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 672 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_load_one_msb ()) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 673 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 674 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 675 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR13) (7 `op_Multiply` 16) Secret false scratch_b 7) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 676 column 13 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96))
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 677 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 678 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 5) (va_op_xmm_xmm 0) (va_op_xmm_xmm 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 679 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR12) (7 `op_Multiply` 16 + 8) Secret true scratch_b 7) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 680 column 13 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_AddLea64 (va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96))
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 681 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15)
(va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret keys_b 0) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 683 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 6)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 684 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 6) (va_op_xmm_xmm 5) (va_op_xmm_xmm 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 685 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 7)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 686 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 7) (va_op_xmm_xmm 6) (va_op_xmm_xmm 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 687 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_QBind
va_range1
"***** PRECONDITION NOT MET AT line 688 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 3) (va_op_xmm_xmm 7) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _
-> let (va_arg117:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let
(va_arg116:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_s in let
(va_arg115:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_old_s in let
(va_arg114:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___1 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 init in let (va_arg113:Vale.Def.Types_s.quad32) =
__proj__Mktuple6__item___1 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let
(va_arg112:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___1 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 ctrs in let (va_arg111:Vale.AES.AES_common_s.algorithm) = alg in
va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 690 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg111 va_arg112 va_arg113 va_arg114
va_arg115 va_arg116 va_arg117) (let (va_arg110:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg109:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let
(va_arg108:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_old_s in let
(va_arg107:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___2 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 init in let (va_arg106:Vale.Def.Types_s.quad32) =
__proj__Mktuple6__item___2 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let
(va_arg105:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___2 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 ctrs in let (va_arg104:Vale.AES.AES_common_s.algorithm) = alg in
va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 691 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg104 va_arg105 va_arg106 va_arg107
va_arg108 va_arg109 va_arg110) (let (va_arg103:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg102:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let
(va_arg101:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_old_s in let
(va_arg100:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___3 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 init in let (va_arg99:Vale.Def.Types_s.quad32) =
__proj__Mktuple6__item___3 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let
(va_arg98:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___3 #quad32 #quad32 #quad32 #quad32
#quad32 #quad32 ctrs in let (va_arg97:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE
va_range1
"***** PRECONDITION NOT MET AT line 692 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg97 va_arg98 va_arg99 va_arg100
va_arg101 va_arg102 va_arg103) (let (va_arg96:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg95:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let
(va_arg94:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_old_s in let
(va_arg93:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___4 #quad32 #quad32 #quad32 #quad32
#quad32 #quad32 init in let (va_arg92:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___4
#quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let (va_arg91:Vale.Def.Types_s.quad32)
= __proj__Mktuple6__item___4 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs in let
(va_arg90:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 693 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg90 va_arg91 va_arg92 va_arg93
va_arg94 va_arg95 va_arg96) (let (va_arg89:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg88:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let
(va_arg87:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_old_s in let
(va_arg86:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___5 #quad32 #quad32 #quad32 #quad32
#quad32 #quad32 init in let (va_arg85:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___5
#quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let (va_arg84:Vale.Def.Types_s.quad32)
= __proj__Mktuple6__item___5 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs in let
(va_arg83:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 694 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg83 va_arg84 va_arg85 va_arg86
va_arg87 va_arg88 va_arg89) (let (va_arg82:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg81:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let
(va_arg80:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_old_s in let
(va_arg79:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___6 #quad32 #quad32 #quad32 #quad32
#quad32 #quad32 init in let (va_arg78:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___6
#quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let (va_arg77:Vale.Def.Types_s.quad32)
= __proj__Mktuple6__item___6 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs in let
(va_arg76:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 695 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg76 va_arg77 va_arg78 va_arg79
va_arg80 va_arg81 va_arg82) (va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 696 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___1 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___1 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___1 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 697 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___2 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___2 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___2 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 698 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___3 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___3 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___3 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 699 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___4 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___4 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___4 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 700 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___5 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___5 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___5 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 701 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___6 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___6 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___6 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(let (va_arg75:Vale.Def.Types_s.quad32) = Vale.X64.Decls.buffer128_read scratch_b 7
(va_get_mem_heaplet 3 va_s) in let (va_arg74:Vale.Def.Types_s.quad32) =
Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_old_s) in let
(va_arg73:Vale.Def.Types_s.quad32) = inb in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 703 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.Arch.Types.lemma_reverse_bytes_quad32_64 va_arg73 va_arg74 va_arg75) (let
(va_arg72:Vale.Def.Types_s.quad32) = va_get_xmm 0 va_s in let
(va_arg71:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg70:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 705 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg70 va_arg71 va_arg72 1) (let
(va_arg69:Vale.Def.Types_s.quad32) = va_get_xmm 5 va_s in let
(va_arg68:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg67:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 706 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg67 va_arg68 va_arg69 2) (let
(va_arg66:Vale.Def.Types_s.quad32) = va_get_xmm 6 va_s in let
(va_arg65:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg64:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 707 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg64 va_arg65 va_arg66 3) (let
(va_arg63:Vale.Def.Types_s.quad32) = va_get_xmm 7 va_s in let
(va_arg62:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg61:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 708 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg61 va_arg62 va_arg63 4) (let
(va_arg60:Vale.Def.Types_s.quad32) = va_get_xmm 3 va_s in let
(va_arg59:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg58:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 709 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg58 va_arg59 va_arg60 5) (va_QEmpty
(()))))))))))))))))))))))))))))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_final va_b0 va_s0 alg iv_b scratch_b key_words round_keys keys_b ctr_orig init
ctrs plain inb =
let (va_mods:va_mods_t) = [va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14;
va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 7;
va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi;
va_Mod_ok; va_Mod_mem] in
let va_qc = va_qcode_Loop6x_final va_mods alg iv_b scratch_b key_words round_keys keys_b ctr_orig
init ctrs plain inb in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_final alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 589 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (label va_range1
"***** POSTCONDITION NOT MET AT line 649 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 7 7) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 652 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 inb) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 654 column 111 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == map2_six_of #quad32 #quad32 #quad32 plain ctrs (fun
(p:quad32) (c:quad32) -> Vale.Def.Types_s.quad32_xor p (Vale.AES.AES_s.aes_encrypt_LE alg
key_words c))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 655 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 657 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 658 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 660 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label
va_range1
"***** POSTCONDITION NOT MET AT line 662 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 1 va_sM == Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_s0))
/\ label va_range1
"***** POSTCONDITION NOT MET AT line 663 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(let ctr = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in label
va_range1
"***** POSTCONDITION NOT MET AT line 665 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(ctr + 6 < 256 ==> (va_get_xmm 1 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5 va_sM, va_get_xmm 6
va_sM, va_get_xmm 7 va_sM, va_get_xmm 3 va_sM) == xor_reverse_inc32lite_6 0 0 ctr_orig
(va_get_xmm 15 va_sM))))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm
13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 7; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR13;
va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok;
va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.InsAes.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Transformers.Transform.fsti.checked",
"Vale.Math.Poly2_s.fsti.checked",
"Vale.Math.Poly2.Bits_s.fsti.checked",
"Vale.Math.Poly2.Bits.fsti.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Def.Prop_s.fst.checked",
"Vale.Def.Opaque_s.fsti.checked",
"Vale.Arch.TypesNative.fsti.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"Vale.AES.X64.PolyOps.fsti.checked",
"Vale.AES.X64.AESopt2.fsti.checked",
"Vale.AES.X64.AESGCM_expected_code.fsti.checked",
"Vale.AES.GHash.fsti.checked",
"Vale.AES.GF128_s.fsti.checked",
"Vale.AES.GF128.fsti.checked",
"Vale.AES.GCTR_s.fst.checked",
"Vale.AES.GCTR.fsti.checked",
"Vale.AES.GCM_helpers.fsti.checked",
"Vale.AES.AES_s.fst.checked",
"Vale.AES.AES_helpers.fsti.checked",
"Vale.AES.AES_common_s.fst.checked",
"prims.fst.checked",
"FStar.Seq.Base.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked"
],
"interface_file": true,
"source_file": "Vale.AES.X64.AESopt.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Transformers.Transform",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESGCM_expected_code",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESopt2",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.PolyOps",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GHash",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Math.Poly2_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.TypesNative",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCM_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsAes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"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.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Seq",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_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": "FStar.Mul",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Transformers.Transform",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESGCM_expected_code",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESopt2",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.PolyOps",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GHash",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Math.Poly2_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.TypesNative",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCM_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsAes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"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.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Seq",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_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.AES.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.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": 30,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
alg: Vale.AES.AES_common_s.algorithm ->
iv_b: Vale.X64.Memory.buffer128 ->
scratch_b: Vale.X64.Memory.buffer128 ->
key_words: FStar.Seq.Base.seq Vale.X64.Memory.nat32 ->
round_keys: FStar.Seq.Base.seq Vale.X64.Decls.quad32 ->
keys_b: Vale.X64.Memory.buffer128 ->
ctr_orig: Vale.X64.Decls.quad32 ->
init: Vale.AES.X64.AESopt.quad32_6 ->
ctrs: Vale.AES.X64.AESopt.quad32_6 ->
plain: Vale.AES.X64.AESopt.quad32_6 ->
inb: Vale.X64.Decls.quad32 ->
va_s0: Vale.X64.Decls.va_state ->
va_k: (_: Vale.X64.Decls.va_state -> _: Prims.unit -> Type0)
-> Prims.Ghost ((Vale.X64.Decls.va_state * Vale.X64.Decls.va_fuel) * Prims.unit) | Prims.Ghost | [] | [] | [
"Vale.AES.AES_common_s.algorithm",
"Vale.X64.Memory.buffer128",
"FStar.Seq.Base.seq",
"Vale.X64.Memory.nat32",
"Vale.X64.Decls.quad32",
"Vale.AES.X64.AESopt.quad32_6",
"Vale.X64.Decls.va_state",
"Prims.unit",
"Vale.X64.Decls.va_fuel",
"FStar.Pervasives.Native.Mktuple3",
"Vale.X64.QuickCode.va_lemma_norm_mods",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_Mod_mem_heaplet",
"Vale.X64.QuickCode.va_Mod_flags",
"Vale.X64.QuickCode.va_Mod_xmm",
"Vale.X64.QuickCode.va_Mod_reg64",
"Vale.X64.Machine_s.rR13",
"Vale.X64.Machine_s.rR12",
"Vale.X64.Machine_s.rR11",
"Vale.X64.Machine_s.rRsi",
"Vale.X64.Machine_s.rRdi",
"Vale.X64.QuickCode.va_Mod_mem",
"Prims.Nil",
"Prims._assert",
"Vale.X64.Decls.va_state_eq",
"Vale.X64.Decls.va_update_mem_heaplet",
"Vale.X64.Decls.va_update_flags",
"Vale.X64.Decls.va_update_xmm",
"Vale.X64.Decls.va_update_reg64",
"Vale.X64.Decls.va_update_ok",
"Vale.X64.Decls.va_update_mem",
"Vale.X64.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.X64.State.vale_state",
"Vale.AES.X64.AESopt.va_lemma_Loop6x_final",
"Vale.AES.X64.AESopt.va_code_Loop6x_final"
] | [] | false | false | false | false | false | let va_wpProof_Loop6x_final
alg
iv_b
scratch_b
key_words
round_keys
keys_b
ctr_orig
init
ctrs
plain
inb
va_s0
va_k
=
| let va_sM, va_f0 =
va_lemma_Loop6x_final (va_code_Loop6x_final alg) va_s0 alg iv_b scratch_b key_words round_keys
keys_b ctr_orig init ctrs plain inb
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM
(va_update_mem_heaplet 3
va_sM
(va_update_flags va_sM
(va_update_xmm 15
va_sM
(va_update_xmm 14
va_sM
(va_update_xmm 13
va_sM
(va_update_xmm 12
va_sM
(va_update_xmm 11
va_sM
(va_update_xmm 10
va_sM
(va_update_xmm 9
va_sM
(va_update_xmm 7
va_sM
(va_update_xmm 6
va_sM
(va_update_xmm 5
va_sM
(va_update_xmm 3
va_sM
(va_update_xmm 2
va_sM
(va_update_xmm 1
va_sM
(va_update_xmm 0
va_sM
(va_update_reg64 rR13
va_sM
(va_update_reg64 rR12
va_sM
(va_update_reg64 rR11
va_sM
(va_update_reg64 rRsi
va_sM
(va_update_reg64
rRdi
va_sM
(va_update_ok
va_sM
(va_update_mem
va_sM
va_s0
))))
))))))))))))))))))));
va_lemma_norm_mods ([
va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12;
va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5;
va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR13; va_Mod_reg64 rR12;
va_Mod_reg64 rR11; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem
])
va_sM
va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | false |
FStar.Real.fsti | FStar.Real.two | val two:real | val two:real | let two : real = of_int 2 | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 25,
"end_line": 53,
"start_col": 0,
"start_line": 53
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0 | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | FStar.Real.real | Prims.Tot | [
"total"
] | [] | [
"FStar.Real.of_int"
] | [] | false | false | false | true | false | let two:real =
| of_int 2 | false |
FStar.Real.fsti | FStar.Real.one | val one:real | val one:real | let one : real = of_int 1 | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 25,
"end_line": 52,
"start_col": 0,
"start_line": 52
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | FStar.Real.real | Prims.Tot | [
"total"
] | [] | [
"FStar.Real.of_int"
] | [] | false | false | false | true | false | let one:real =
| of_int 1 | false |
FStar.Real.fsti | FStar.Real.zero | val zero:real | val zero:real | let zero : real = of_int 0 | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 26,
"end_line": 51,
"start_col": 0,
"start_line": 51
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native" | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | FStar.Real.real | Prims.Tot | [
"total"
] | [] | [
"FStar.Real.of_int"
] | [] | false | false | false | true | false | let zero:real =
| of_int 0 | false |
Pulse.Syntax.Builder.fst | Pulse.Syntax.Builder.tm_rename | val tm_rename : pairs: Prims.list (Pulse.Syntax.Base.term * Pulse.Syntax.Base.term) -> t: Pulse.Syntax.Base.st_term
-> Pulse.Syntax.Base.st_term' | let tm_rename pairs t = Tm_ProofHintWithBinders { hint_type = RENAME { pairs; goal=None}; binders=[]; t} | {
"file_name": "lib/steel/pulse/Pulse.Syntax.Builder.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 104,
"end_line": 39,
"start_col": 0,
"start_line": 39
} | (*
Copyright 2023 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.
*)
module Pulse.Syntax.Builder
open Pulse.Syntax
let pat_var s = Pat_Var s
let pat_const c = Pat_Constant c
let pat_cons fv vs = Pat_Cons fv vs
let tm_return expected_type insert_eq term = Tm_Return { expected_type; insert_eq; term }
let tm_abs b q ascription body = Tm_Abs { b; q; ascription; body }
let tm_stapp head arg_qual arg = Tm_STApp { head; arg_qual; arg }
let tm_bind binder head body = Tm_Bind { binder; head; body }
let tm_totbind binder head body = Tm_TotBind { binder; head; body }
let tm_if b then_ else_ post = Tm_If { b; then_; else_; post }
let tm_match sc returns_ brs = Tm_Match {sc; returns_; brs}
let tm_elim_exists p = Tm_ElimExists { p }
let tm_intro_exists p witnesses = Tm_IntroExists { p; witnesses }
let tm_while invariant condition condition_var body = Tm_While { invariant; condition; condition_var; body }
let tm_par pre1 body1 post1 pre2 body2 post2 = Tm_Par { pre1; body1; post1; pre2; body2; post2 }
let tm_with_inv name body returns_inv = Tm_WithInv { name; body; returns_inv }
let tm_with_local binder initializer body = Tm_WithLocal { binder; initializer; body }
let tm_with_local_array binder initializer length body = Tm_WithLocalArray { binder; initializer; length; body } | {
"checked_file": "/",
"dependencies": [
"Pulse.Syntax.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Syntax.Builder.fst"
} | [
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"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 | pairs: Prims.list (Pulse.Syntax.Base.term * Pulse.Syntax.Base.term) -> t: Pulse.Syntax.Base.st_term
-> Pulse.Syntax.Base.st_term' | Prims.Tot | [
"total"
] | [] | [
"Prims.list",
"FStar.Pervasives.Native.tuple2",
"Pulse.Syntax.Base.term",
"Pulse.Syntax.Base.st_term",
"Pulse.Syntax.Base.Tm_ProofHintWithBinders",
"Pulse.Syntax.Base.Mkst_term'__Tm_ProofHintWithBinders__payload",
"Pulse.Syntax.Base.RENAME",
"Pulse.Syntax.Base.Mkproof_hint_type__RENAME__payload",
"FStar.Pervasives.Native.None",
"Prims.Nil",
"Pulse.Syntax.Base.binder",
"Pulse.Syntax.Base.st_term'"
] | [] | false | false | false | true | false | let tm_rename pairs t =
| Tm_ProofHintWithBinders
({ hint_type = RENAME ({ pairs = pairs; goal = None }); binders = []; t = t }) | false |
|
Pulse.Syntax.Builder.fst | Pulse.Syntax.Builder.tm_with_inv | val tm_with_inv : name: Pulse.Syntax.Base.term ->
body: Pulse.Syntax.Base.st_term ->
returns_inv: FStar.Pervasives.Native.option (Pulse.Syntax.Base.binder * Pulse.Syntax.Base.vprop)
-> Pulse.Syntax.Base.st_term' | let tm_with_inv name body returns_inv = Tm_WithInv { name; body; returns_inv } | {
"file_name": "lib/steel/pulse/Pulse.Syntax.Builder.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 78,
"end_line": 35,
"start_col": 0,
"start_line": 35
} | (*
Copyright 2023 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.
*)
module Pulse.Syntax.Builder
open Pulse.Syntax
let pat_var s = Pat_Var s
let pat_const c = Pat_Constant c
let pat_cons fv vs = Pat_Cons fv vs
let tm_return expected_type insert_eq term = Tm_Return { expected_type; insert_eq; term }
let tm_abs b q ascription body = Tm_Abs { b; q; ascription; body }
let tm_stapp head arg_qual arg = Tm_STApp { head; arg_qual; arg }
let tm_bind binder head body = Tm_Bind { binder; head; body }
let tm_totbind binder head body = Tm_TotBind { binder; head; body }
let tm_if b then_ else_ post = Tm_If { b; then_; else_; post }
let tm_match sc returns_ brs = Tm_Match {sc; returns_; brs}
let tm_elim_exists p = Tm_ElimExists { p }
let tm_intro_exists p witnesses = Tm_IntroExists { p; witnesses }
let tm_while invariant condition condition_var body = Tm_While { invariant; condition; condition_var; body } | {
"checked_file": "/",
"dependencies": [
"Pulse.Syntax.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Syntax.Builder.fst"
} | [
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"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 |
name: Pulse.Syntax.Base.term ->
body: Pulse.Syntax.Base.st_term ->
returns_inv: FStar.Pervasives.Native.option (Pulse.Syntax.Base.binder * Pulse.Syntax.Base.vprop)
-> Pulse.Syntax.Base.st_term' | Prims.Tot | [
"total"
] | [] | [
"Pulse.Syntax.Base.term",
"Pulse.Syntax.Base.st_term",
"FStar.Pervasives.Native.option",
"FStar.Pervasives.Native.tuple2",
"Pulse.Syntax.Base.binder",
"Pulse.Syntax.Base.vprop",
"Pulse.Syntax.Base.Tm_WithInv",
"Pulse.Syntax.Base.Mkst_term'__Tm_WithInv__payload",
"Pulse.Syntax.Base.st_term'"
] | [] | false | false | false | true | false | let tm_with_inv name body returns_inv =
| Tm_WithInv ({ name = name; body = body; returns_inv = returns_inv }) | false |
|
Vale.AES.X64.AESopt.fst | Vale.AES.X64.AESopt.va_lemma_Loop6x_partial | val va_lemma_Loop6x_partial : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 ->
y_prev:quad32 -> data:(seq quad32) -> count:nat -> in0_count:nat -> iv_b:buffer128 ->
in0_b:buffer128 -> in_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) ->
round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE:quad32
-> Ghost (va_state & va_fuel & quad32_6)
(requires (va_require_total va_b0 (va_code_Loop6x_partial alg) va_s0 /\ va_get_ok va_s0 /\ (let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in let (prev:Vale.Math.Poly2_s.poly) =
Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 y_prev) in sse_enabled
/\ movbe_enabled /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0
16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8
va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128
(va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b (in0_count `op_Multiply` 6) 6
(va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6
va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0)
Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp
va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64
/\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 ==
FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx
va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9
va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ FStar.Seq.Base.length #quad32 data == 6 /\ hkeys_b_powers hkeys_b
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) (va_get_reg64 rR9 va_s0 - 32) h /\
scratch_b_data true true scratch_b 8 5 (va_get_mem_heaplet 3 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rRbp va_s0) data /\ va_get_xmm 7 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32
(va_subscript_FStar__Seq__Base__seq data 5) /\ add (add (Vale.Math.Poly2.Bits_s.of_quad32
(va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0)))
(Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1
(va_get_mem_heaplet 3 va_s0))) == prev)))
(ensures (fun (va_sM, va_fM, init) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM
/\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in let (prev:Vale.Math.Poly2_s.poly) =
Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 y_prev) in
Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b
(va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ (0 <= va_get_reg64 rRbx va_sM
/\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys
(Vale.AES.AES_common_s.nr alg - 1) /\ va_get_reg64 rR13 va_sM ==
Vale.Def.Types_s.reverse_bytes_nat64 (Vale.Arch.Types.hi64 (Vale.X64.Decls.buffer128_read in0_b
(in0_count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM))) /\ va_get_reg64 rR12 va_sM ==
Vale.Def.Types_s.reverse_bytes_nat64 (Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read in0_b
(in0_count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM))) /\ (let rk =
FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in (va_get_xmm 2 va_sM,
va_get_xmm 0 va_sM, va_get_xmm 5 va_sM, va_get_xmm 6 va_sM, va_get_xmm 7 va_sM, va_get_xmm 3
va_sM) == make_six_of #quad32 (fun (i:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor rk
(Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_sM)))
/\ Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\
Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (in0_count
`op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) /\ Vale.X64.Decls.buffer128_read scratch_b 3
(va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32
(Vale.X64.Decls.buffer128_read in0_b (in0_count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6
va_s0)) /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (in0_count
`op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) /\ Vale.X64.Decls.buffer128_read scratch_b 5
(va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32
(Vale.X64.Decls.buffer128_read in0_b (in0_count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6
va_s0)) /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (in0_count
`op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) /\ init == make_six_of #quad32 (fun
(n:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE n)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys
0)) /\ (let eventual_Xi = add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM))
(Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1
(va_get_mem_heaplet 3 va_sM)))) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM)) in
eventual_Xi == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GHash.ghash_incremental h_LE y_prev data))))) /\ va_state_eq va_sM (va_update_flags
va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_xmm 15 va_sM
(va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM
(va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM
(va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM
(va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR13
va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM
(va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))) | val va_lemma_Loop6x_partial : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 ->
y_prev:quad32 -> data:(seq quad32) -> count:nat -> in0_count:nat -> iv_b:buffer128 ->
in0_b:buffer128 -> in_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) ->
round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE:quad32
-> Ghost (va_state & va_fuel & quad32_6)
(requires (va_require_total va_b0 (va_code_Loop6x_partial alg) va_s0 /\ va_get_ok va_s0 /\ (let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in let (prev:Vale.Math.Poly2_s.poly) =
Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 y_prev) in sse_enabled
/\ movbe_enabled /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0
16777216 /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 2 va_s0) (va_get_reg64 rR8
va_s0) iv_b 1 (va_get_mem_layout va_s0) Public /\ Vale.X64.Decls.validSrcAddrsOffset128
(va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b (in0_count `op_Multiply` 6) 6
(va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6
va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0)
Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp
va_s0) scratch_b 9 (va_get_mem_layout va_s0) Secret /\ va_get_reg64 rRdi va_s0 + 96 < pow2_64
/\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 ==
FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx
va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9
va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ FStar.Seq.Base.length #quad32 data == 6 /\ hkeys_b_powers hkeys_b
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) (va_get_reg64 rR9 va_s0 - 32) h /\
scratch_b_data true true scratch_b 8 5 (va_get_mem_heaplet 3 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rRbp va_s0) data /\ va_get_xmm 7 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32
(va_subscript_FStar__Seq__Base__seq data 5) /\ add (add (Vale.Math.Poly2.Bits_s.of_quad32
(va_get_xmm 8 va_s0)) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_s0)))
(Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1
(va_get_mem_heaplet 3 va_s0))) == prev)))
(ensures (fun (va_sM, va_fM, init) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM
/\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in let (prev:Vale.Math.Poly2_s.poly) =
Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 y_prev) in
Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 1 8 /\ Vale.X64.Decls.modifies_buffer_specific128 iv_b
(va_get_mem_heaplet 2 va_s0) (va_get_mem_heaplet 2 va_sM) 0 0 /\ (0 <= va_get_reg64 rRbx va_sM
/\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys
(Vale.AES.AES_common_s.nr alg - 1) /\ va_get_reg64 rR13 va_sM ==
Vale.Def.Types_s.reverse_bytes_nat64 (Vale.Arch.Types.hi64 (Vale.X64.Decls.buffer128_read in0_b
(in0_count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM))) /\ va_get_reg64 rR12 va_sM ==
Vale.Def.Types_s.reverse_bytes_nat64 (Vale.Arch.Types.lo64 (Vale.X64.Decls.buffer128_read in0_b
(in0_count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6 va_sM))) /\ (let rk =
FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in (va_get_xmm 2 va_sM,
va_get_xmm 0 va_sM, va_get_xmm 5 va_sM, va_get_xmm 6 va_sM, va_get_xmm 7 va_sM, va_get_xmm 3
va_sM) == make_six_of #quad32 (fun (i:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor rk
(Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_sM)))
/\ Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\
Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (in0_count
`op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0)) /\ Vale.X64.Decls.buffer128_read scratch_b 3
(va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32
(Vale.X64.Decls.buffer128_read in0_b (in0_count `op_Multiply` 6 + 4) (va_get_mem_heaplet 6
va_s0)) /\ Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (in0_count
`op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0)) /\ Vale.X64.Decls.buffer128_read scratch_b 5
(va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32
(Vale.X64.Decls.buffer128_read in0_b (in0_count `op_Multiply` 6 + 2) (va_get_mem_heaplet 6
va_s0)) /\ Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (in0_count
`op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0)) /\ init == make_six_of #quad32 (fun
(n:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE n)) (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys
0)) /\ (let eventual_Xi = add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM))
(Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1
(va_get_mem_heaplet 3 va_sM)))) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM)) in
eventual_Xi == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GHash.ghash_incremental h_LE y_prev data))))) /\ va_state_eq va_sM (va_update_flags
va_sM (va_update_mem_heaplet 3 va_sM (va_update_mem_heaplet 2 va_sM (va_update_xmm 15 va_sM
(va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM
(va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM
(va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM
(va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR13
va_sM (va_update_reg64 rR12 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM
(va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))))))) | let va_lemma_Loop6x_partial va_b0 va_s0 alg h_LE y_prev data count in0_count iv_b in0_b in_b
scratch_b key_words round_keys keys_b hkeys_b ctr_BE =
let va_orig = va_code_untransformedoriginal_Loop6x_partial alg in
let va_hint = va_code_Loop6x_partial_expected_code alg in
let va_transformed = va_code_Loop6x_partial alg in
let (va_sM_orig, va_fM_orig, init) = va_lemma_untransformedoriginal_Loop6x_partial va_orig va_s0
alg h_LE y_prev data count in0_count iv_b in0_b in_b scratch_b key_words round_keys keys_b
hkeys_b ctr_BE in
va_reveal_opaque (`%va_transform_Loop6x_partial) (va_transform_Loop6x_partial alg);
va_reveal_opaque (`%va_code_Loop6x_partial) (va_code_Loop6x_partial alg);
let (va_sM, va_fM) = lemma_reorder va_orig va_hint va_transformed va_s0 va_sM_orig va_fM_orig in
(va_sM, va_fM, init) | {
"file_name": "obj/Vale.AES.X64.AESopt.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 22,
"end_line": 2192,
"start_col": 0,
"start_line": 2181
} | module Vale.AES.X64.AESopt
open FStar.Mul
open Vale.Def.Prop_s
open Vale.Def.Opaque_s
open Vale.Def.Words_s
open Vale.Def.Types_s
open FStar.Seq
open Vale.Arch.Types
open Vale.Arch.HeapImpl
open Vale.AES.AES_s
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.InsVector
open Vale.X64.InsAes
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.AES.AES_helpers
//open Vale.Poly1305.Math // For lemma_poly_bits64()
open Vale.AES.GCM_helpers
open Vale.AES.GCTR_s
open Vale.AES.GCTR
open Vale.Arch.TypesNative
open Vale.X64.CPU_Features_s
open Vale.Math.Poly2_s
open Vale.AES.GF128_s
open Vale.AES.GF128
open Vale.AES.GHash
open Vale.AES.X64.PolyOps
open Vale.AES.X64.AESopt2
open Vale.AES.X64.AESGCM_expected_code
open Vale.Transformers.Transform
open FStar.Mul
let add = Vale.Math.Poly2_s.add
#reset-options "--z3rlimit 30"
//-- finish_aes_encrypt_le
val finish_aes_encrypt_le : alg:algorithm -> input_LE:quad32 -> key:(seq nat32)
-> Lemma
(requires (Vale.AES.AES_s.is_aes_key_LE alg key))
(ensures (Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg
input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)))
let finish_aes_encrypt_le alg input_LE key =
Vale.AES.AES_s.aes_encrypt_LE_reveal ();
Vale.AES.AES_s.eval_cipher_reveal ();
()
//--
//-- Load_two_lsb
[@ "opaque_to_smt"]
let va_code_Load_two_lsb dst =
(va_Block (va_CCons (va_code_ZeroXmm dst) (va_CCons (va_code_PinsrqImm dst 2 0
(va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
[@ "opaque_to_smt"]
let va_codegen_success_Load_two_lsb dst =
(va_pbool_and (va_codegen_success_ZeroXmm dst) (va_pbool_and (va_codegen_success_PinsrqImm dst 2
0 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ())))
[@"opaque_to_smt"]
let va_lemma_Load_two_lsb va_b0 va_s0 dst =
va_reveal_opaque (`%va_code_Load_two_lsb) (va_code_Load_two_lsb dst);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s3, va_fc3) = va_lemma_ZeroXmm (va_hd va_b1) va_s0 dst in
let va_b3 = va_tl va_b1 in
Vale.Arch.Types.lemma_insert_nat64_nat32s (va_eval_xmm va_s3 dst) 2 0;
assert (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 2 0) == 2);
let (va_s6, va_fc6) = va_lemma_PinsrqImm (va_hd va_b3) va_s3 dst 2 0 (va_op_reg_opr64_reg64 rR11)
in
let va_b6 = va_tl va_b3 in
let (va_sM, va_f6) = va_lemma_empty_total va_s6 va_b6 in
let va_f3 = va_lemma_merge_total va_b3 va_s3 va_fc6 va_s6 va_f6 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc3 va_s3 va_f3 va_sM in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Load_two_lsb dst va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_two_lsb (va_code_Load_two_lsb dst) va_s0 dst in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Load_0xc2_msb
val va_code_Load_0xc2_msb : dst:va_operand_xmm -> Tot va_code
[@ "opaque_to_smt"]
let va_code_Load_0xc2_msb dst =
(va_Block (va_CCons (va_code_ZeroXmm dst) (va_CCons (va_code_PinsrqImm dst 13979173243358019584 1
(va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
val va_codegen_success_Load_0xc2_msb : dst:va_operand_xmm -> Tot va_pbool
[@ "opaque_to_smt"]
let va_codegen_success_Load_0xc2_msb dst =
(va_pbool_and (va_codegen_success_ZeroXmm dst) (va_pbool_and (va_codegen_success_PinsrqImm dst
13979173243358019584 1 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ())))
val va_lemma_Load_0xc2_msb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load_0xc2_msb dst) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 3254779904 /\
va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))))
[@"opaque_to_smt"]
let va_lemma_Load_0xc2_msb va_b0 va_s0 dst =
va_reveal_opaque (`%va_code_Load_0xc2_msb) (va_code_Load_0xc2_msb dst);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s3, va_fc3) = va_lemma_ZeroXmm (va_hd va_b1) va_s0 dst in
let va_b3 = va_tl va_b1 in
assert (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 0
3254779904) == 13979173243358019584);
Vale.Arch.Types.lemma_insert_nat64_nat32s (va_eval_xmm va_s3 dst) 0 3254779904;
let (va_s6, va_fc6) = va_lemma_PinsrqImm (va_hd va_b3) va_s3 dst 13979173243358019584 1
(va_op_reg_opr64_reg64 rR11) in
let va_b6 = va_tl va_b3 in
let (va_sM, va_f6) = va_lemma_empty_total va_s6 va_b6 in
let va_f3 = va_lemma_merge_total va_b3 va_s3 va_fc6 va_s6 va_f6 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc3 va_s3 va_f3 va_sM in
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Load_0xc2_msb (dst:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_dst:va_value_xmm)
(va_x_r11:nat64) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_reg64
rR11 va_x_r11 (va_upd_operand_xmm dst va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM
dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 3254779904 ==> va_k va_sM (())))
val va_wpProof_Load_0xc2_msb : dst:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit ->
Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Load_0xc2_msb dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load_0xc2_msb dst) ([va_Mod_flags;
va_Mod_reg64 rR11; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Load_0xc2_msb dst va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_0xc2_msb (va_code_Load_0xc2_msb dst) va_s0 dst in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Load_0xc2_msb (dst:va_operand_xmm) : (va_quickCode unit (va_code_Load_0xc2_msb dst)) =
(va_QProc (va_code_Load_0xc2_msb dst) ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst])
(va_wp_Load_0xc2_msb dst) (va_wpProof_Load_0xc2_msb dst))
//--
//-- Load_one_lsb
[@ "opaque_to_smt"]
let va_code_Load_one_lsb dst =
(va_Block (va_CCons (va_code_ZeroXmm dst) (va_CCons (va_code_PinsrqImm dst 1 0
(va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
[@ "opaque_to_smt"]
let va_codegen_success_Load_one_lsb dst =
(va_pbool_and (va_codegen_success_ZeroXmm dst) (va_pbool_and (va_codegen_success_PinsrqImm dst 1
0 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ())))
[@"opaque_to_smt"]
let va_lemma_Load_one_lsb va_b0 va_s0 dst =
va_reveal_opaque (`%va_code_Load_one_lsb) (va_code_Load_one_lsb dst);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s3, va_fc3) = va_lemma_ZeroXmm (va_hd va_b1) va_s0 dst in
let va_b3 = va_tl va_b1 in
Vale.Arch.Types.lemma_insert_nat64_nat32s (va_eval_xmm va_s3 dst) 1 0;
assert (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 1 0) == 1);
let (va_s6, va_fc6) = va_lemma_PinsrqImm (va_hd va_b3) va_s3 dst 1 0 (va_op_reg_opr64_reg64 rR11)
in
let va_b6 = va_tl va_b3 in
let (va_sM, va_f6) = va_lemma_empty_total va_s6 va_b6 in
let va_f3 = va_lemma_merge_total va_b3 va_s3 va_fc6 va_s6 va_f6 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc3 va_s3 va_f3 va_sM in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Load_one_lsb dst va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_one_lsb (va_code_Load_one_lsb dst) va_s0 dst in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Handle_ctr32
val va_code_Handle_ctr32 : va_dummy:unit -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Handle_ctr32 () =
(va_Block (va_CCons (va_code_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR11))
(va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons
(va_code_Load_one_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10)
(va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_Load_two_lsb (va_op_xmm_xmm 5))
(va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CNil
()))))))))))))))))))))
val va_codegen_success_Handle_ctr32 : va_dummy:unit -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Handle_ctr32 () =
(va_pbool_and (va_codegen_success_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR11))
(va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm
0)) (va_pbool_and (va_codegen_success_Load_one_lsb (va_op_xmm_xmm 5)) (va_pbool_and
(va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5))
(va_pbool_and (va_codegen_success_Load_two_lsb (va_op_xmm_xmm 5)) (va_pbool_and
(va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5))
(va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm
5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10)
(va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm
11) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm
10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_pbool_and (va_codegen_success_VPaddd
(va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_pbool_and
(va_codegen_success_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0))
(va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm
15)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13)
(va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm
13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 14)
(va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm
1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_ttrue ())))))))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Handle_ctr32 (va_mods:va_mods_t) (ctr_BE:quad32) : (va_quickCode unit
(va_code_Handle_ctr32 ())) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 256 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR11)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 257 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 261 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load_one_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 262 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 263 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load_two_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 264 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 265 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 266 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 267 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 268 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 269 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 270 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 271 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 272 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 273 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 274 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 275 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 276 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QEmpty
(())))))))))))))))))))))
val va_lemma_Handle_ctr32 : va_b0:va_code -> va_s0:va_state -> ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Handle_ctr32 ()) va_s0 /\ va_get_ok va_s0 /\
(avx_enabled /\ sse_enabled /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32
ctr_BE)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM, va_get_xmm
14 va_sM, va_get_xmm 1 va_sM) == xor_reverse_inc32lite_6 2 1 ctr_BE (va_get_xmm 15 va_sM) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM
(va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM
(va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Handle_ctr32 va_b0 va_s0 ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm
11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR11; va_Mod_ok] in
let va_qc = va_qcode_Handle_ctr32 va_mods ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Handle_ctr32 ()) va_qc va_s0 (fun va_s0
va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 234 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 254 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM,
va_get_xmm 14 va_sM, va_get_xmm 1 va_sM) == xor_reverse_inc32lite_6 2 1 ctr_BE (va_get_xmm 15
va_sM))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Handle_ctr32 (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE) /\ (forall (va_x_r11:nat64) (va_x_xmm0:quad32)
(va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm10:quad32)
(va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14
(va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10
va_x_xmm10 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm
1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR11 va_x_r11 va_s0))))))))))) in va_get_ok
va_sM /\ (va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM,
va_get_xmm 14 va_sM, va_get_xmm 1 va_sM) == xor_reverse_inc32lite_6 2 1 ctr_BE (va_get_xmm 15
va_sM) ==> va_k va_sM (())))
val va_wpProof_Handle_ctr32 : ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Handle_ctr32 ctr_BE va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Handle_ctr32 ()) ([va_Mod_flags;
va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM,
va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Handle_ctr32 ctr_BE va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Handle_ctr32 (va_code_Handle_ctr32 ()) va_s0 ctr_BE in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM
(va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM
(va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR11]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Handle_ctr32 (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32 ())) =
(va_QProc (va_code_Handle_ctr32 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12;
va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1;
va_Mod_xmm 0; va_Mod_reg64 rR11]) (va_wp_Handle_ctr32 ctr_BE) (va_wpProof_Handle_ctr32 ctr_BE))
//--
//-- Loop6x_ctr_update
val va_code_Loop6x_ctr_update : alg:algorithm -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_ctr_update alg =
(va_Block (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (va_CCons
(va_IfElse (va_cmp_ge (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (va_Block (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret) (va_CCons (va_code_Handle_ctr32 ()) (va_CCons (va_code_Sub64
(va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_CNil ()))))) (va_Block (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)
(va_op_xmm_xmm 14)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10)
(va_op_opr128_xmm 15)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11)
(va_op_opr128_xmm 15)) (va_CNil ()))))))) (va_CNil ()))))
val va_codegen_success_Loop6x_ctr_update : alg:algorithm -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_ctr_update alg =
(va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6))
(va_pbool_and (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0)
(va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rR9) (0 - 32) Secret) (va_pbool_and
(va_codegen_success_Handle_ctr32 ()) (va_pbool_and (va_codegen_success_Sub64
(va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_pbool_and
(va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3)
(va_op_reg_opr64_reg64 rR9) (0 - 32) Secret) (va_pbool_and (va_codegen_success_VPaddd
(va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 14)) (va_pbool_and (va_codegen_success_VPxor
(va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_codegen_success_VPxor
(va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)))))))) (va_ttrue ())))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_ctr_update (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (key_words:(seq
nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) :
(va_quickCode unit (va_code_Loop6x_ctr_update alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_QBind va_range1
"***** PRECONDITION NOT MET AT line 339 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (fun (va_s:va_state) _ ->
va_QBind va_range1
"***** PRECONDITION NOT MET AT line 340 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_qIf va_mods (Cmp_ge (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (qblock va_mods (fun
(va_s:va_state) -> va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 341 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret hkeys_b 0) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 342 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Handle_ctr32 ctr_BE) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 343 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_QEmpty (())))))) (qblock
va_mods (fun (va_s:va_state) -> va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 345 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret hkeys_b 0) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 346 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 14)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 347 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_QBind
va_range1
"***** PRECONDITION NOT MET AT line 348 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg36:Prims.nat) = va_get_reg64 rRbx va_old_s in let
(va_arg35:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg34:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let
(va_arg33:Vale.Def.Types_s.quad32) = ctr_BE in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 349 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_msb_in_bounds va_arg33 va_arg34 va_arg35 va_arg36)
(va_QEmpty (()))))))))) (fun (va_s:va_state) va_g -> va_QEmpty (())))))
val va_lemma_Loop6x_ctr_update : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 ->
key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 ->
ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_ctr_update alg) va_s0 /\ va_get_ok va_s0 /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ aes_reqs_offset alg key_words
round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout
va_s0) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216
/\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE
0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus`
256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_get_xmm 1 va_sM ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64
rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == xor_reverse_inc32lite_6 3 0 ctr_BE (va_get_xmm 15
va_sM) /\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0
va_sM)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13
va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9
va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1
va_sM (va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64 rR11 va_sM
(va_update_reg64 rRbx va_sM (va_update_ok va_sM va_s0))))))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_ctr_update va_b0 va_s0 alg h_LE key_words round_keys keys_b hkeys_b ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm
11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1;
va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok] in
let va_qc = va_qcode_Loop6x_ctr_update va_mods alg h_LE key_words round_keys keys_b hkeys_b
ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_ctr_update alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 279 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in label va_range1
"***** POSTCONDITION NOT MET AT line 330 column 57 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE
6)) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 331 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 332 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite
ctr_BE 6) `op_Modulus` 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 334 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == xor_reverse_inc32lite_6 3 0 ctr_BE (va_get_xmm 15 va_sM)) /\
label va_range1
"***** POSTCONDITION NOT MET AT line 335 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_sM))))
in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm
0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_ctr_update (alg:algorithm) (h_LE:quad32) (key_words:(seq nat32)) (round_keys:(seq
quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ aes_reqs_offset alg key_words
round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout
va_s0) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216
/\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE
0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus`
256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h) /\ (forall (va_x_rbx:nat64) (va_x_r11:nat64)
(va_x_xmm3:quad32) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32)
(va_x_xmm6:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32)
(va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm
12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9
(va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1
(va_upd_xmm 0 va_x_xmm0 (va_upd_xmm 3 va_x_xmm3 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx
va_x_rbx va_s0)))))))))))))) in va_get_ok va_sM /\ (let (h:Vale.Math.Poly2_s.poly) =
Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_get_xmm 1
va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <=
va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == xor_reverse_inc32lite_6 3 0 ctr_BE (va_get_xmm 15
va_sM) /\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0
va_sM)) ==> va_k va_sM (())))
val va_wpProof_Loop6x_ctr_update : alg:algorithm -> h_LE:quad32 -> key_words:(seq nat32) ->
round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE:quad32 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_ctr_update alg h_LE key_words round_keys keys_b
hkeys_b ctr_BE va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_ctr_update alg) ([va_Mod_flags;
va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9;
va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3;
va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_ctr_update (va_code_Loop6x_ctr_update alg) va_s0 alg h_LE
key_words round_keys keys_b hkeys_b ctr_BE in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM
(va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM
(va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx
va_sM (va_update_ok va_sM va_s0)))))))))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm
0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_ctr_update (alg:algorithm) (h_LE:quad32) (key_words:(seq nat32))
(round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) : (va_quickCode
unit (va_code_Loop6x_ctr_update alg)) =
(va_QProc (va_code_Loop6x_ctr_update alg) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5;
va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx])
(va_wp_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE)
(va_wpProof_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE))
//--
//-- Loop6x_plain
val va_code_Loop6x_plain : alg:algorithm -> rnd:nat -> rndkey:va_operand_xmm -> Tot va_code
[@ "opaque_to_smt"]
let va_code_Loop6x_plain alg rnd rndkey =
(va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) rndkey
(va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 1) - 128) Secret) (va_CCons
(va_code_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) rndkey) (va_CCons (va_code_VAESNI_enc
(va_op_xmm_xmm 10) (va_op_xmm_xmm 10) rndkey) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) rndkey) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12)
rndkey) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) rndkey) (va_CCons
(va_code_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) rndkey) (va_CNil ())))))))))
val va_codegen_success_Loop6x_plain : alg:algorithm -> rnd:nat -> rndkey:va_operand_xmm -> Tot
va_pbool
[@ "opaque_to_smt"]
let va_codegen_success_Loop6x_plain alg rnd rndkey =
(va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) rndkey
(va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 1) - 128) Secret) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) rndkey) (va_ttrue
()))))))))
val va_lemma_Loop6x_plain : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> rnd:nat ->
key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init:quad32_6 ->
rndkey:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_plain alg rnd rndkey) va_s0 /\ va_is_dst_xmm
rndkey va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ (rndkey == 1 \/ rndkey == 2 \/ rndkey == 15)
/\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 1 < FStar.Seq.Base.length
#quad32 round_keys /\ (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm
12 va_s0, va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == rounds_opaque_6 init round_keys rnd)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys (rnd + 1) /\ va_state_eq
va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12
va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok
va_sM (va_update_operand_xmm rndkey va_sM va_s0)))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_plain va_b0 va_s0 alg rnd key_words round_keys keys_b init rndkey =
va_reveal_opaque (`%va_code_Loop6x_plain) (va_code_Loop6x_plain alg rnd rndkey);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s9, va_fc9) = va_lemma_Load128_buffer (va_hd va_b1) va_s0 (va_op_heaplet_mem_heaplet 0)
rndkey (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 1) - 128) Secret keys_b (rnd + 1)
in
let va_b9 = va_tl va_b1 in
let (va_s10, va_fc10) = va_lemma_VAESNI_enc (va_hd va_b9) va_s9 (va_op_xmm_xmm 9) (va_op_xmm_xmm
9) rndkey in
let va_b10 = va_tl va_b9 in
let (va_s11, va_fc11) = va_lemma_VAESNI_enc (va_hd va_b10) va_s10 (va_op_xmm_xmm 10)
(va_op_xmm_xmm 10) rndkey in
let va_b11 = va_tl va_b10 in
let (va_s12, va_fc12) = va_lemma_VAESNI_enc (va_hd va_b11) va_s11 (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) rndkey in
let va_b12 = va_tl va_b11 in
let (va_s13, va_fc13) = va_lemma_VAESNI_enc (va_hd va_b12) va_s12 (va_op_xmm_xmm 12)
(va_op_xmm_xmm 12) rndkey in
let va_b13 = va_tl va_b12 in
let (va_s14, va_fc14) = va_lemma_VAESNI_enc (va_hd va_b13) va_s13 (va_op_xmm_xmm 13)
(va_op_xmm_xmm 13) rndkey in
let va_b14 = va_tl va_b13 in
let (va_s15, va_fc15) = va_lemma_VAESNI_enc (va_hd va_b14) va_s14 (va_op_xmm_xmm 14)
(va_op_xmm_xmm 14) rndkey in
let va_b15 = va_tl va_b14 in
Vale.AES.AES_s.eval_rounds_reveal ();
Vale.AES.AES_helpers.commute_sub_bytes_shift_rows_forall ();
let (va_sM, va_f15) = va_lemma_empty_total va_s15 va_b15 in
let va_f14 = va_lemma_merge_total va_b14 va_s14 va_fc15 va_s15 va_f15 va_sM in
let va_f13 = va_lemma_merge_total va_b13 va_s13 va_fc14 va_s14 va_f14 va_sM in
let va_f12 = va_lemma_merge_total va_b12 va_s12 va_fc13 va_s13 va_f13 va_sM in
let va_f11 = va_lemma_merge_total va_b11 va_s11 va_fc12 va_s12 va_f12 va_sM in
let va_f10 = va_lemma_merge_total va_b10 va_s10 va_fc11 va_s11 va_f11 va_sM in
let va_f9 = va_lemma_merge_total va_b9 va_s9 va_fc10 va_s10 va_f10 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc9 va_s9 va_f9 va_sM in
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_plain (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32))
(keys_b:buffer128) (init:quad32_6) (rndkey:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm rndkey va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ (rndkey == 1 \/ rndkey == 2 \/
rndkey == 15) /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 1 < FStar.Seq.Base.length
#quad32 round_keys /\ (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm
12 va_s0, va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == rounds_opaque_6 init round_keys rnd) /\
(forall (va_x_rndkey:va_value_xmm) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32)
(va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm
12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9
(va_upd_operand_xmm rndkey va_x_rndkey va_s0))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM,
va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM, va_get_xmm
14 va_sM) == rounds_opaque_6 init round_keys (rnd + 1) ==> va_k va_sM (())))
val va_wpProof_Loop6x_plain : alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq
quad32) -> keys_b:buffer128 -> init:quad32_6 -> rndkey:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_plain alg rnd key_words round_keys keys_b init
rndkey va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_plain alg rnd rndkey)
([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10;
va_Mod_xmm 9; va_mod_xmm rndkey]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_plain alg rnd key_words round_keys keys_b init rndkey va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_plain (va_code_Loop6x_plain alg rnd rndkey) va_s0 alg rnd
key_words round_keys keys_b init rndkey in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM
(va_update_ok va_sM (va_update_operand_xmm rndkey va_sM va_s0))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_mod_xmm rndkey]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_plain (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq
quad32)) (keys_b:buffer128) (init:quad32_6) (rndkey:va_operand_xmm) : (va_quickCode unit
(va_code_Loop6x_plain alg rnd rndkey)) =
(va_QProc (va_code_Loop6x_plain alg rnd rndkey) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_mod_xmm rndkey])
(va_wp_Loop6x_plain alg rnd key_words round_keys keys_b init rndkey) (va_wpProof_Loop6x_plain
alg rnd key_words round_keys keys_b init rndkey))
//--
//-- Loop6x_preamble
val va_code_Loop6x_preamble : alg:algorithm -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_preamble alg =
(va_Block (va_CCons (va_code_Loop6x_ctr_update alg) (va_CCons (va_code_Store128_buffer
(va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 128 Secret)
(va_CCons (va_code_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 15)) (va_CNil ())))))))
val va_codegen_success_Loop6x_preamble : alg:algorithm -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_preamble alg =
(va_pbool_and (va_codegen_success_Loop6x_ctr_update alg) (va_pbool_and
(va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_xmm_xmm 1) 128 Secret) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 12)
(va_op_xmm_xmm 12) (va_op_opr128_xmm 15)) (va_pbool_and (va_codegen_success_VPxor
(va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 15)) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 15))
(va_ttrue ()))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_preamble (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (iv_b:buffer128)
(scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128)
(hkeys_b:buffer128) (ctr_BE:quad32) : (va_quickCode unit (va_code_Loop6x_preamble alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_QBind va_range1
"***** PRECONDITION NOT MET AT line 477 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE) (fun
(va_s:va_state) _ -> let (va_arg43:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg42:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 479 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg42 va_arg43) (let
(va_arg41:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let
(va_arg40:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 480 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg40 va_arg41) (let
(va_arg39:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let
(va_arg38:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 481 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg38 va_arg39) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 498 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_xmm_xmm 1) 128 Secret scratch_b 8) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 499 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg37:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg36:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 499 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg36 va_arg37) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 500 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg35:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg34:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 500 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg34 va_arg35) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 501 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg33:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg32:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 501 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg32 va_arg33) (va_QEmpty
(()))))))))))))))
val va_lemma_Loop6x_preamble : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 ->
iv_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) ->
keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_preamble alg) va_s0 /\ va_get_ok va_s0 /\ (let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ Vale.X64.Decls.validDstAddrs128
(va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0)
Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 ==
FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx
va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9
va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in Vale.X64.Decls.modifies_buffer_specific128
scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 8 8 /\ (let init =
make_six_of #Vale.Def.Types_s.quad32 (fun (n:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor
(Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE n)) (va_get_xmm 15
va_sM)) in (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys 0 /\
Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64
rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_s0)))
/\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 14
va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10
va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2
va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64
rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM (va_update_mem va_sM
va_s0))))))))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_preamble va_b0 va_s0 alg h_LE iv_b scratch_b key_words round_keys keys_b
hkeys_b ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5;
va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx;
va_Mod_ok; va_Mod_mem] in
let va_qc = va_qcode_Loop6x_preamble va_mods alg h_LE iv_b scratch_b key_words round_keys keys_b
hkeys_b ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_preamble alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 402 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in label va_range1
"***** POSTCONDITION NOT MET AT line 459 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 8 8) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 464 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(let init = make_six_of #Vale.Def.Types_s.quad32 (fun (n:(va_int_range 0 5)) ->
Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite
ctr_BE n)) (va_get_xmm 15 va_sM)) in label va_range1
"***** POSTCONDITION NOT MET AT line 466 column 102 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys 0) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 469 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 472 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 473 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite
ctr_BE 6) `op_Modulus` 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 475 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_s0)))))
in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm
12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2;
va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok;
va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_preamble (alg:algorithm) (h_LE:quad32) (iv_b:buffer128) (scratch_b:buffer128)
(key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128)
(ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ Vale.X64.Decls.validDstAddrs128
(va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0)
Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 ==
FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx
va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9
va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h) /\ (forall (va_x_mem:vale_heap) (va_x_rbx:nat64)
(va_x_r11:nat64) (va_x_xmm3:quad32) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32)
(va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32)
(va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32)
(va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_mem_heaplet 3 va_x_heap3 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13
(va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9
va_x_xmm9 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1
va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_xmm 3 va_x_xmm3 (va_upd_reg64 rR11 va_x_r11
(va_upd_reg64 rRbx va_x_rbx (va_upd_mem va_x_mem va_s0)))))))))))))))) in va_get_ok va_sM /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in Vale.X64.Decls.modifies_buffer_specific128
scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 8 8 /\ (let init =
make_six_of #Vale.Def.Types_s.quad32 (fun (n:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor
(Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE n)) (va_get_xmm 15
va_sM)) in (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys 0 /\
Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64
rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_s0)))
==> va_k va_sM (())))
val va_wpProof_Loop6x_preamble : alg:algorithm -> h_LE:quad32 -> iv_b:buffer128 ->
scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 ->
hkeys_b:buffer128 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_preamble alg h_LE iv_b scratch_b key_words
round_keys keys_b hkeys_b ctr_BE va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_preamble alg) ([va_Mod_flags;
va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm
10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0,
va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_preamble alg h_LE iv_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE
va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_preamble (va_code_Loop6x_preamble alg) va_s0 alg h_LE iv_b
scratch_b key_words round_keys keys_b hkeys_b ctr_BE in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 14
va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10
va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2
va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64
rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM (va_update_mem va_sM
va_s0)))))))))))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm
12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2;
va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_mem])
va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_preamble (alg:algorithm) (h_LE:quad32) (iv_b:buffer128) (scratch_b:buffer128)
(key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128)
(ctr_BE:quad32) : (va_quickCode unit (va_code_Loop6x_preamble alg)) =
(va_QProc (va_code_Loop6x_preamble alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14;
va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11;
va_Mod_reg64 rRbx; va_Mod_mem]) (va_wp_Loop6x_preamble alg h_LE iv_b scratch_b key_words
round_keys keys_b hkeys_b ctr_BE) (va_wpProof_Loop6x_preamble alg h_LE iv_b scratch_b key_words
round_keys keys_b hkeys_b ctr_BE))
//--
//-- Loop6x_reverse128
val va_code_Loop6x_reverse128 : in0_offset:nat -> stack_offset:nat -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_reverse128 in0_offset stack_offset =
(va_Block (va_CCons (va_code_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rR13) (va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16 + 8)
Secret true) (va_CCons (va_code_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rR12) (va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16) Secret
false) (va_CCons (va_code_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR13) (stack_offset `op_Multiply` 16)
Secret false) (va_CCons (va_code_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR12) (stack_offset `op_Multiply` 16 + 8)
Secret true) (va_CNil ()))))))
val va_codegen_success_Loop6x_reverse128 : in0_offset:nat -> stack_offset:nat -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_reverse128 in0_offset stack_offset =
(va_pbool_and (va_codegen_success_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rR13) (va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16 + 8)
Secret true) (va_pbool_and (va_codegen_success_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rR12) (va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16) Secret
false) (va_pbool_and (va_codegen_success_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR13) (stack_offset `op_Multiply` 16)
Secret false) (va_pbool_and (va_codegen_success_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR12) (stack_offset `op_Multiply` 16 + 8)
Secret true) (va_ttrue ())))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_reverse128 (va_mods:va_mods_t) (in0_offset:nat) (stack_offset:nat) (start:nat)
(in0_b:buffer128) (scratch_b:buffer128) : (va_quickCode unit (va_code_Loop6x_reverse128
in0_offset stack_offset)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 527 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rR13)
(va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16 + 8) Secret true in0_b (start +
in0_offset)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 528 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rR12)
(va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16) Secret false in0_b (start +
in0_offset)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 529 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR13) (stack_offset `op_Multiply` 16) Secret false scratch_b
stack_offset) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 530 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR12) (stack_offset `op_Multiply` 16 + 8) Secret true scratch_b
stack_offset) (fun (va_s:va_state) _ -> let (va_arg10:Vale.Def.Types_s.quad32) =
Vale.X64.Decls.buffer128_read scratch_b stack_offset (va_get_mem_heaplet 3 va_s) in let
(va_arg9:Vale.Def.Types_s.quad32) = Vale.X64.Decls.buffer128_read scratch_b stack_offset
(va_get_mem_heaplet 3 va_old_s) in let (va_arg8:Vale.Def.Types_s.quad32) =
Vale.X64.Decls.buffer128_read in0_b (start + in0_offset) (va_get_mem_heaplet 6 va_old_s) in
va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 531 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.Arch.Types.lemma_reverse_bytes_quad32_64 va_arg8 va_arg9 va_arg10)
(va_QEmpty (()))))))))
val va_lemma_Loop6x_reverse128 : va_b0:va_code -> va_s0:va_state -> in0_offset:nat ->
stack_offset:nat -> start:nat -> in0_b:buffer128 -> scratch_b:buffer128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_reverse128 in0_offset stack_offset) va_s0 /\
va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128
(va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b start (in0_offset + 1)
(va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3
va_s0) (va_get_reg64 rRbp va_s0) scratch_b (stack_offset + 1) (va_get_mem_layout va_s0)
Secret)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) stack_offset stack_offset /\ Vale.X64.Decls.buffer128_read
scratch_b stack_offset (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32
(Vale.X64.Decls.buffer128_read in0_b (start + in0_offset) (va_get_mem_heaplet 6 va_s0))) /\
va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64
rR12 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_reverse128 va_b0 va_s0 in0_offset stack_offset start in0_b scratch_b =
let (va_mods:va_mods_t) = [va_Mod_mem_heaplet 3; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_ok;
va_Mod_mem] in
let va_qc = va_qcode_Loop6x_reverse128 va_mods in0_offset stack_offset start in0_b scratch_b in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_reverse128 in0_offset
stack_offset) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 504 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (label va_range1
"***** POSTCONDITION NOT MET AT line 523 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) stack_offset stack_offset) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 525 column 88 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b stack_offset (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (start + in0_offset)
(va_get_mem_heaplet 6 va_s0))))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_ok;
va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_reverse128 (in0_offset:nat) (stack_offset:nat) (start:nat) (in0_b:buffer128)
(scratch_b:buffer128) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128
(va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b start (in0_offset + 1)
(va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3
va_s0) (va_get_reg64 rRbp va_s0) scratch_b (stack_offset + 1) (va_get_mem_layout va_s0) Secret)
/\ (forall (va_x_mem:vale_heap) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_heap3:vale_heap) . let
va_sM = va_upd_mem_heaplet 3 va_x_heap3 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12
(va_upd_mem va_x_mem va_s0))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128
scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) stack_offset stack_offset
/\ Vale.X64.Decls.buffer128_read scratch_b stack_offset (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (start + in0_offset)
(va_get_mem_heaplet 6 va_s0))) ==> va_k va_sM (())))
val va_wpProof_Loop6x_reverse128 : in0_offset:nat -> stack_offset:nat -> start:nat ->
in0_b:buffer128 -> scratch_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_reverse128 in0_offset stack_offset start in0_b
scratch_b va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_reverse128 in0_offset
stack_offset) ([va_Mod_mem_heaplet 3; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_mem]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_reverse128 in0_offset stack_offset start in0_b scratch_b va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_reverse128 (va_code_Loop6x_reverse128 in0_offset
stack_offset) va_s0 in0_offset stack_offset start in0_b scratch_b in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR13 va_sM
(va_update_reg64 rR12 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))));
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_mem])
va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_reverse128 (in0_offset:nat) (stack_offset:nat) (start:nat) (in0_b:buffer128)
(scratch_b:buffer128) : (va_quickCode unit (va_code_Loop6x_reverse128 in0_offset stack_offset)) =
(va_QProc (va_code_Loop6x_reverse128 in0_offset stack_offset) ([va_Mod_mem_heaplet 3;
va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_mem]) (va_wp_Loop6x_reverse128 in0_offset
stack_offset start in0_b scratch_b) (va_wpProof_Loop6x_reverse128 in0_offset stack_offset start
in0_b scratch_b))
//--
//-- Loop6x_round9
val va_code_Loop6x_round9 : alg:algorithm -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_round9 alg =
(va_Block (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64
rRbp) (va_op_xmm_xmm 7) 16 Secret) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor
(va_op_xmm_xmm 2) (va_op_xmm_xmm 1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg64_reg64 rRdi) 0 Secret)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_CCons
(va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 1)
(va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret))
(va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm
1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret))
(va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 7) (va_op_xmm_xmm
1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret))
(va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm
1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret))
(va_CNil ())))))))))))))))
val va_codegen_success_Loop6x_round9 : alg:algorithm -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_round9 alg =
(va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 7) 16 Secret) (va_pbool_and
(va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 2)
(va_op_xmm_xmm 1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0
Secret)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_pbool_and
(va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 5)
(va_op_xmm_xmm 1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32
Secret)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_pbool_and
(va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 7)
(va_op_xmm_xmm 1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64
Secret)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (va_ttrue ()))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_round9 (va_mods:va_mods_t) (alg:algorithm) (count:nat) (in_b:buffer128)
(scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) :
(va_quickCode unit (va_code_Loop6x_round9 alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 567 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_xmm_xmm 7) 16 Secret scratch_b 1) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 568 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret in_b
(count `op_Multiply` 6 + 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 568 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 2) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 569 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret in_b
(count `op_Multiply` 6 + 1)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 569 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 570 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret in_b
(count `op_Multiply` 6 + 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 570 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 571 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret in_b
(count `op_Multiply` 6 + 3)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 571 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 572 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret in_b
(count `op_Multiply` 6 + 4)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 572 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 7) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 573 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret in_b
(count `op_Multiply` 6 + 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 573 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (va_QEmpty
(()))))))))))))))))
val va_lemma_Loop6x_round9 : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat ->
in_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) ->
keys_b:buffer128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_round9 alg) va_s0 /\ va_get_ok va_s0 /\
(sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0)
(va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\
Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0)
scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b
(va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm
1 va_s0 == Vale.X64.Decls.buffer128_read keys_b (Vale.AES.AES_common_s.nr alg)
(va_get_mem_heaplet 0 va_s0))))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 1 1 /\ (va_get_xmm 2 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5
va_sM, va_get_xmm 6 va_sM, va_get_xmm 7 va_sM, va_get_xmm 3 va_sM) == make_six_of #quad32 (fun
(i:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor (FStar.Seq.Base.index
#Vale.Def.Types_s.quad32 round_keys (Vale.AES.AES_common_s.nr alg))
(Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_sM)))
/\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 7
va_s0) /\ va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_flags va_sM
(va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 3 va_sM
(va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_ok va_sM
(va_update_mem va_sM va_s0)))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_round9 va_b0 va_s0 alg count in_b scratch_b key_words round_keys keys_b =
let (va_mods:va_mods_t) = [va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_ok; va_Mod_mem] in
let va_qc = va_qcode_Loop6x_round9 va_mods alg count in_b scratch_b key_words round_keys keys_b in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_round9 alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 535 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (label va_range1
"***** POSTCONDITION NOT MET AT line 561 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 1 1) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 563 column 102 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 2 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5 va_sM, va_get_xmm 6 va_sM, va_get_xmm 7
va_sM, va_get_xmm 3 va_sM) == make_six_of #quad32 (fun (i:(va_int_range 0 5)) ->
Vale.Def.Types_s.quad32_xor (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys
(Vale.AES.AES_common_s.nr alg)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i)
(va_get_mem_heaplet 6 va_sM)))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 564 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 7
va_s0))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm
5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_ok; va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_round9 (alg:algorithm) (count:nat) (in_b:buffer128) (scratch_b:buffer128)
(key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6
va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0)
Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp
va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys
keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\
va_get_xmm 1 va_s0 == Vale.X64.Decls.buffer128_read keys_b (Vale.AES.AES_common_s.nr alg)
(va_get_mem_heaplet 0 va_s0)) /\ (forall (va_x_mem:vale_heap) (va_x_xmm0:quad32)
(va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32)
(va_x_xmm7:quad32) (va_x_efl:Vale.X64.Flags.t) (va_x_heap3:vale_heap) . let va_sM =
va_upd_mem_heaplet 3 va_x_heap3 (va_upd_flags va_x_efl (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6
va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1
va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_mem va_x_mem va_s0))))))))) in va_get_ok va_sM /\
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 1 1 /\ (va_get_xmm 2 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5
va_sM, va_get_xmm 6 va_sM, va_get_xmm 7 va_sM, va_get_xmm 3 va_sM) == make_six_of #quad32 (fun
(i:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor (FStar.Seq.Base.index
#Vale.Def.Types_s.quad32 round_keys (Vale.AES.AES_common_s.nr alg))
(Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_sM)))
/\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 7
va_s0) ==> va_k va_sM (())))
val va_wpProof_Loop6x_round9 : alg:algorithm -> count:nat -> in_b:buffer128 -> scratch_b:buffer128
-> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_round9 alg count in_b scratch_b key_words
round_keys keys_b va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_round9 alg)
([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 3;
va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_round9 alg count in_b scratch_b key_words round_keys keys_b va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_round9 (va_code_Loop6x_round9 alg) va_s0 alg count in_b
scratch_b key_words round_keys keys_b in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_flags va_sM (va_update_xmm 7
va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2
va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_ok va_sM (va_update_mem va_sM
va_s0))))))))))));
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm
5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_mem]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_round9 (alg:algorithm) (count:nat) (in_b:buffer128) (scratch_b:buffer128)
(key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) : (va_quickCode unit
(va_code_Loop6x_round9 alg)) =
(va_QProc (va_code_Loop6x_round9 alg) ([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7;
va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_mem]) (va_wp_Loop6x_round9 alg count in_b scratch_b key_words round_keys keys_b)
(va_wpProof_Loop6x_round9 alg count in_b scratch_b key_words round_keys keys_b))
//--
//-- load_one_msb
val va_code_load_one_msb : va_dummy:unit -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_load_one_msb () =
(va_Block (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 2)) (va_CCons (va_code_PinsrqImm
(va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
val va_codegen_success_load_one_msb : va_dummy:unit -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_load_one_msb () =
(va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 2)) (va_pbool_and
(va_codegen_success_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64
rR11)) (va_ttrue ())))
[@ "opaque_to_smt" va_qattr]
let va_qcode_load_one_msb (va_mods:va_mods_t) : (va_quickCode unit (va_code_load_one_msb ())) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1
"***** PRECONDITION NOT MET AT line 583 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_ZeroXmm (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> va_qAssert va_range1
"***** PRECONDITION NOT MET AT line 584 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 0 16777216) ==
72057594037927936) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 585 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (fun
(va_s:va_state) _ -> va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 586 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.Def.Types_s.insert_nat64_reveal ()) (va_QEmpty (())))))))
val va_lemma_load_one_msb : va_b0:va_code -> va_s0:va_state
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_load_one_msb ()) va_s0 /\ va_get_ok va_s0 /\
sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\
va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11 va_sM
(va_update_ok va_sM va_s0))))))
[@"opaque_to_smt"]
let va_lemma_load_one_msb va_b0 va_s0 =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok] in
let va_qc = va_qcode_load_one_msb va_mods in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_load_one_msb ()) va_qc va_s0 (fun va_s0
va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 576 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 581 column 46 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216)) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_load_one_msb (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_r11:nat64) (va_x_xmm2:quad32)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 2 va_x_xmm2
(va_upd_reg64 rR11 va_x_r11 va_s0)) in va_get_ok va_sM /\ va_get_xmm 2 va_sM ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 ==> va_k va_sM (())))
val va_wpProof_load_one_msb : va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_load_one_msb va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_load_one_msb ()) ([va_Mod_flags;
va_Mod_xmm 2; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_load_one_msb va_s0 va_k =
let (va_sM, va_f0) = va_lemma_load_one_msb (va_code_load_one_msb ()) va_s0 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11
va_sM (va_update_ok va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_load_one_msb () : (va_quickCode unit (va_code_load_one_msb ())) =
(va_QProc (va_code_load_one_msb ()) ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11])
va_wp_load_one_msb va_wpProof_load_one_msb)
//--
//-- Loop6x_final
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_final alg =
(va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 1)
(va_op_reg_opr64_reg64 rRbp) 128 Secret) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 9)
(va_op_xmm_xmm 9) (va_op_xmm_xmm 2)) (va_CCons (va_code_load_one_msb ()) (va_CCons
(va_code_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_CCons
(va_code_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR13) (7 `op_Multiply` 16) Secret false) (va_CCons (va_code_AddLea64
(va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_CCons
(va_code_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 5) (va_op_xmm_xmm 0) (va_op_xmm_xmm 2)) (va_CCons
(va_code_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR12) (7 `op_Multiply` 16 + 8) Secret true) (va_CCons (va_code_AddLea64
(va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64
rRcx) (0 - 128) Secret) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm
12) (va_op_xmm_xmm 6)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)
(va_op_xmm_xmm 2)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13)
(va_op_xmm_xmm 7)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 7) (va_op_xmm_xmm 6) (va_op_xmm_xmm
2)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3))
(va_CCons (va_code_VPaddd (va_op_xmm_xmm 3) (va_op_xmm_xmm 7) (va_op_xmm_xmm 2)) (va_CNil
()))))))))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_final alg =
(va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 1)
(va_op_reg_opr64_reg64 rRbp) 128 Secret) (va_pbool_and (va_codegen_success_VAESNI_enc_last
(va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 2)) (va_pbool_and
(va_codegen_success_load_one_msb ()) (va_pbool_and (va_codegen_success_VAESNI_enc_last
(va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and
(va_codegen_success_VPaddd (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_pbool_and
(va_codegen_success_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64
rRbp) (va_op_reg_opr64_reg64 rR13) (7 `op_Multiply` 16) Secret false) (va_pbool_and
(va_codegen_success_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi)
(va_const_opr64 96)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm
5) (va_op_xmm_xmm 0) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_Store64_buffer128
(va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR12) (7
`op_Multiply` 16 + 8) Secret true) (va_pbool_and (va_codegen_success_AddLea64
(va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_pbool_and
(va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15)
(va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_pbool_and
(va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 6))
(va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 6) (va_op_xmm_xmm 5) (va_op_xmm_xmm 2))
(va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13)
(va_op_xmm_xmm 7)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 7) (va_op_xmm_xmm 6)
(va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 14)
(va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm
3) (va_op_xmm_xmm 7) (va_op_xmm_xmm 2)) (va_ttrue ())))))))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_final (va_mods:va_mods_t) (alg:algorithm) (iv_b:buffer128)
(scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128)
(ctr_orig:quad32) (init:quad32_6) (ctrs:quad32_6) (plain:quad32_6) (inb:quad32) : (va_quickCode
unit (va_code_Loop6x_final alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 667 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.Arch.TypesNative.lemma_quad32_xor_commutes_forall ()) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 669 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 1) (va_op_reg_opr64_reg64
rRbp) 128 Secret scratch_b 8) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 671 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 2)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 672 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_load_one_msb ()) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 673 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 674 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 675 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR13) (7 `op_Multiply` 16) Secret false scratch_b 7) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 676 column 13 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96))
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 677 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 678 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 5) (va_op_xmm_xmm 0) (va_op_xmm_xmm 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 679 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR12) (7 `op_Multiply` 16 + 8) Secret true scratch_b 7) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 680 column 13 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_AddLea64 (va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96))
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 681 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15)
(va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret keys_b 0) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 683 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 6)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 684 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 6) (va_op_xmm_xmm 5) (va_op_xmm_xmm 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 685 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 7)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 686 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 7) (va_op_xmm_xmm 6) (va_op_xmm_xmm 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 687 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_QBind
va_range1
"***** PRECONDITION NOT MET AT line 688 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 3) (va_op_xmm_xmm 7) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _
-> let (va_arg117:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let
(va_arg116:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_s in let
(va_arg115:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_old_s in let
(va_arg114:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___1 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 init in let (va_arg113:Vale.Def.Types_s.quad32) =
__proj__Mktuple6__item___1 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let
(va_arg112:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___1 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 ctrs in let (va_arg111:Vale.AES.AES_common_s.algorithm) = alg in
va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 690 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg111 va_arg112 va_arg113 va_arg114
va_arg115 va_arg116 va_arg117) (let (va_arg110:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg109:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let
(va_arg108:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_old_s in let
(va_arg107:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___2 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 init in let (va_arg106:Vale.Def.Types_s.quad32) =
__proj__Mktuple6__item___2 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let
(va_arg105:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___2 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 ctrs in let (va_arg104:Vale.AES.AES_common_s.algorithm) = alg in
va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 691 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg104 va_arg105 va_arg106 va_arg107
va_arg108 va_arg109 va_arg110) (let (va_arg103:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg102:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let
(va_arg101:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_old_s in let
(va_arg100:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___3 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 init in let (va_arg99:Vale.Def.Types_s.quad32) =
__proj__Mktuple6__item___3 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let
(va_arg98:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___3 #quad32 #quad32 #quad32 #quad32
#quad32 #quad32 ctrs in let (va_arg97:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE
va_range1
"***** PRECONDITION NOT MET AT line 692 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg97 va_arg98 va_arg99 va_arg100
va_arg101 va_arg102 va_arg103) (let (va_arg96:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg95:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let
(va_arg94:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_old_s in let
(va_arg93:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___4 #quad32 #quad32 #quad32 #quad32
#quad32 #quad32 init in let (va_arg92:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___4
#quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let (va_arg91:Vale.Def.Types_s.quad32)
= __proj__Mktuple6__item___4 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs in let
(va_arg90:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 693 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg90 va_arg91 va_arg92 va_arg93
va_arg94 va_arg95 va_arg96) (let (va_arg89:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg88:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let
(va_arg87:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_old_s in let
(va_arg86:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___5 #quad32 #quad32 #quad32 #quad32
#quad32 #quad32 init in let (va_arg85:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___5
#quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let (va_arg84:Vale.Def.Types_s.quad32)
= __proj__Mktuple6__item___5 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs in let
(va_arg83:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 694 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg83 va_arg84 va_arg85 va_arg86
va_arg87 va_arg88 va_arg89) (let (va_arg82:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg81:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let
(va_arg80:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_old_s in let
(va_arg79:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___6 #quad32 #quad32 #quad32 #quad32
#quad32 #quad32 init in let (va_arg78:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___6
#quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let (va_arg77:Vale.Def.Types_s.quad32)
= __proj__Mktuple6__item___6 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs in let
(va_arg76:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 695 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg76 va_arg77 va_arg78 va_arg79
va_arg80 va_arg81 va_arg82) (va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 696 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___1 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___1 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___1 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 697 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___2 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___2 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___2 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 698 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___3 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___3 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___3 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 699 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___4 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___4 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___4 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 700 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___5 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___5 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___5 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 701 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___6 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___6 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___6 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(let (va_arg75:Vale.Def.Types_s.quad32) = Vale.X64.Decls.buffer128_read scratch_b 7
(va_get_mem_heaplet 3 va_s) in let (va_arg74:Vale.Def.Types_s.quad32) =
Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_old_s) in let
(va_arg73:Vale.Def.Types_s.quad32) = inb in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 703 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.Arch.Types.lemma_reverse_bytes_quad32_64 va_arg73 va_arg74 va_arg75) (let
(va_arg72:Vale.Def.Types_s.quad32) = va_get_xmm 0 va_s in let
(va_arg71:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg70:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 705 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg70 va_arg71 va_arg72 1) (let
(va_arg69:Vale.Def.Types_s.quad32) = va_get_xmm 5 va_s in let
(va_arg68:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg67:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 706 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg67 va_arg68 va_arg69 2) (let
(va_arg66:Vale.Def.Types_s.quad32) = va_get_xmm 6 va_s in let
(va_arg65:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg64:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 707 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg64 va_arg65 va_arg66 3) (let
(va_arg63:Vale.Def.Types_s.quad32) = va_get_xmm 7 va_s in let
(va_arg62:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg61:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 708 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg61 va_arg62 va_arg63 4) (let
(va_arg60:Vale.Def.Types_s.quad32) = va_get_xmm 3 va_s in let
(va_arg59:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg58:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 709 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg58 va_arg59 va_arg60 5) (va_QEmpty
(()))))))))))))))))))))))))))))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_final va_b0 va_s0 alg iv_b scratch_b key_words round_keys keys_b ctr_orig init
ctrs plain inb =
let (va_mods:va_mods_t) = [va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14;
va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 7;
va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi;
va_Mod_ok; va_Mod_mem] in
let va_qc = va_qcode_Loop6x_final va_mods alg iv_b scratch_b key_words round_keys keys_b ctr_orig
init ctrs plain inb in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_final alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 589 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (label va_range1
"***** POSTCONDITION NOT MET AT line 649 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 7 7) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 652 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 inb) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 654 column 111 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == map2_six_of #quad32 #quad32 #quad32 plain ctrs (fun
(p:quad32) (c:quad32) -> Vale.Def.Types_s.quad32_xor p (Vale.AES.AES_s.aes_encrypt_LE alg
key_words c))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 655 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 657 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 658 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 660 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label
va_range1
"***** POSTCONDITION NOT MET AT line 662 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 1 va_sM == Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_s0))
/\ label va_range1
"***** POSTCONDITION NOT MET AT line 663 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(let ctr = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in label
va_range1
"***** POSTCONDITION NOT MET AT line 665 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(ctr + 6 < 256 ==> (va_get_xmm 1 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5 va_sM, va_get_xmm 6
va_sM, va_get_xmm 7 va_sM, va_get_xmm 3 va_sM) == xor_reverse_inc32lite_6 0 0 ctr_orig
(va_get_xmm 15 va_sM))))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm
13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 7; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR13;
va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok;
va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Loop6x_final alg iv_b scratch_b key_words round_keys keys_b ctr_orig init ctrs plain
inb va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_final (va_code_Loop6x_final alg) va_s0 alg iv_b scratch_b
key_words round_keys keys_b ctr_orig init ctrs plain inb in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_flags va_sM (va_update_xmm 15
va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11
va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6
va_sM (va_update_xmm 5 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1
va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM
(va_update_reg64 rR11 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM
(va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))));
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm
13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 7; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR13;
va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM
va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Loop6x_save_output
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_save_output () =
(va_Block (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64
rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret) (va_CCons (va_code_VPxor (va_op_xmm_xmm 9)
(va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_CCons (va_code_Store128_buffer
(va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret)
(va_CCons (va_code_Mov128 (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons
(va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 11) (0 - 64) Secret) (va_CCons (va_code_Mov128 (va_op_xmm_xmm 11) (va_op_xmm_xmm
5)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64
rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret) (va_CCons (va_code_Mov128 (va_op_xmm_xmm 12)
(va_op_xmm_xmm 6)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret) (va_CCons (va_code_Mov128
(va_op_xmm_xmm 13) (va_op_xmm_xmm 7)) (va_CCons (va_code_Store128_buffer
(va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret)
(va_CCons (va_code_Mov128 (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_CNil ()))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_save_output () =
(va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15))
(va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret) (va_pbool_and
(va_codegen_success_Mov128 (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and
(va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 11) (0 - 64) Secret) (va_pbool_and (va_codegen_success_Mov128 (va_op_xmm_xmm 11)
(va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet
6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret) (va_pbool_and
(va_codegen_success_Mov128 (va_op_xmm_xmm 12) (va_op_xmm_xmm 6)) (va_pbool_and
(va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 13) (0 - 32) Secret) (va_pbool_and (va_codegen_success_Mov128 (va_op_xmm_xmm 13)
(va_op_xmm_xmm 7)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet
6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret) (va_pbool_and
(va_codegen_success_Mov128 (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_ttrue ())))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_save_output (va_mods:va_mods_t) (count:nat) (out_b:buffer128) : (va_quickCode
unit (va_code_Loop6x_save_output ())) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 744 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 9) (0 - 96) Secret out_b (count `op_Multiply` 6 + 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 745 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 746 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 10) (0 - 80) Secret out_b (count `op_Multiply` 6 + 1)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 747 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mov128 (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 748 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 11) (0 - 64) Secret out_b (count `op_Multiply` 6 + 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 749 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mov128 (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 750 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 12) (0 - 48) Secret out_b (count `op_Multiply` 6 + 3)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 751 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mov128 (va_op_xmm_xmm 12) (va_op_xmm_xmm 6)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 752 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 13) (0 - 32) Secret out_b (count `op_Multiply` 6 + 4)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 753 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mov128 (va_op_xmm_xmm 13) (va_op_xmm_xmm 7)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 754 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 14) (0 - 16) Secret out_b (count `op_Multiply` 6 + 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 755 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mov128 (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_QEmpty (())))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_save_output va_b0 va_s0 count out_b =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_ok; va_Mod_mem] in
let va_qc = va_qcode_Loop6x_save_output va_mods count out_b in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_save_output ()) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 712 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (label va_range1
"***** POSTCONDITION NOT MET AT line 737 column 84 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0)
(va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label
va_range1
"***** POSTCONDITION NOT MET AT line 738 column 120 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.buffer128_as_seq
(va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice
#Vale.X64.Decls.quad32 (Vale.X64.Decls.buffer128_as_seq (va_get_mem_heaplet 6 va_s0) out_b) 0
(6 `op_Multiply` count)) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 740 column 92 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0, va_get_xmm
13 va_s0, va_get_xmm 14 va_s0) == make_six_of #quad32 (fun (i:(va_int_range 0 5)) ->
Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_sM)))
/\ label va_range1
"***** POSTCONDITION NOT MET AT line 742 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == (Vale.Def.Types_s.quad32_xor (va_get_xmm 1 va_sM) (va_get_xmm
15 va_sM), va_get_xmm 0 va_sM, va_get_xmm 5 va_sM, va_get_xmm 6 va_sM, va_get_xmm 7 va_sM,
va_get_xmm 3 va_sM)))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm
12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_ok; va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Loop6x_save_output count out_b va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_save_output (va_code_Loop6x_save_output ()) va_s0 count
out_b in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 14
va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10
va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm
12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_mem]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Loop6x_partial
#push-options "--z3rlimit 50 --max_ifuel 0"
[@ "opaque_to_smt" va_qattr]
let va_code_untransformedoriginal_Loop6x_partial alg =
(va_Block (va_CCons (va_code_Loop6x_preamble alg) (va_CCons (va_code_Loop6x_plain alg 0
(va_op_xmm_xmm 2)) (va_CCons (va_code_MulAdd_step 0 0 (va_op_xmm_xmm 1) (va_op_xmm_xmm 5)
(va_op_xmm_xmm 6) (va_op_xmm_xmm 7) (va_op_xmm_xmm 7) (va_op_xmm_xmm 3)) (va_CCons
(va_code_MulAdd_step 1 1 (va_op_xmm_xmm 5) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm
3) (va_op_xmm_xmm 0) (va_op_xmm_xmm 3)) (va_CCons (va_code_Loop6x_plain alg 1 (va_op_xmm_xmm
15)) (va_CCons (va_code_Loop6x_reverse128 5 2) (va_CCons (va_code_MulAdd_step 2 3
(va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_op_xmm_xmm 5) (va_op_xmm_xmm 0)
(va_op_xmm_xmm 5)) (va_CCons (va_code_Loop6x_plain alg 2 (va_op_xmm_xmm 15)) (va_CCons
(va_code_MulAdd_step 3 4 (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_op_xmm_xmm 5) (va_op_xmm_xmm
1) (va_op_xmm_xmm 0) (va_op_xmm_xmm 1)) (va_CCons (va_code_Loop6x_plain alg 3 (va_op_xmm_xmm
15)) (va_CCons (va_code_Loop6x_reverse128 4 3) (va_CCons (va_code_MulAdd_step 4 6
(va_op_xmm_xmm 3) (va_op_xmm_xmm 5) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 0)
(va_op_xmm_xmm 2)) (va_CCons (va_code_Loop6x_plain alg 4 (va_op_xmm_xmm 15)) (va_CCons
(va_code_Loop6x_reverse128 3 4) (va_CCons (va_code_MulAdd_step 5 7 (va_op_xmm_xmm 2)
(va_op_xmm_xmm 5) (va_op_xmm_xmm 1) (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_xmm_xmm 3))
(va_CCons (va_code_Loop6x_plain alg 5 (va_op_xmm_xmm 15)) (va_CCons (va_code_Loop6x_reverse128
2 5) (va_CCons (va_code_Load_0xc2_msb (va_op_xmm_xmm 3)) (va_CCons (va_code_ReduceLast false)
(va_CCons (va_code_Loop6x_plain alg 6 (va_op_xmm_xmm 15)) (va_CCons (va_code_Loop6x_reverse128
1 6) (va_CCons (va_code_Loop6x_plain alg 7 (va_op_xmm_xmm 1)) (va_CCons
(va_code_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rR13)
(va_op_reg_opr64_reg64 rR14) (0 `op_Multiply` 16 + 8) Secret true) (va_CCons
(va_code_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rR12)
(va_op_reg_opr64_reg64 rR14) (0 `op_Multiply` 16) Secret false) (va_CCons (va_code_Loop6x_plain
alg 8 (va_op_xmm_xmm 15)) (va_CCons (if (alg = AES_256) then va_Block (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 1) (va_op_reg_opr64_reg64
rRcx) (160 - 128) Secret) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9)
(va_op_xmm_xmm 1)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10)
(va_op_xmm_xmm 1)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11)
(va_op_xmm_xmm 1)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12)
(va_op_xmm_xmm 1)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13)
(va_op_xmm_xmm 1)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14)
(va_op_xmm_xmm 1)) (va_CCons (va_code_Loop6x_plain alg 10 (va_op_xmm_xmm 15)) (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 1) (va_op_reg_opr64_reg64
rRcx) (192 - 128) Secret) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9)
(va_op_xmm_xmm 1)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10)
(va_op_xmm_xmm 1)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11)
(va_op_xmm_xmm 1)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12)
(va_op_xmm_xmm 1)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13)
(va_op_xmm_xmm 1)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14)
(va_op_xmm_xmm 1)) (va_CCons (va_code_Loop6x_plain alg 12 (va_op_xmm_xmm 15)) (va_CNil
()))))))))))))))))) else va_Block (va_CNil ())) (va_CCons (if (alg = AES_256) then va_Block
(va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 1)
(va_op_reg_opr64_reg64 rRcx) (224 - 128) Secret) (va_CNil ())) else va_Block (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 1) (va_op_reg_opr64_reg64
rRcx) (160 - 128) Secret) (va_CNil ()))) (va_CCons (va_code_Loop6x_round9 alg) (va_CNil
()))))))))))))))))))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_untransformedoriginal_Loop6x_partial alg =
(va_pbool_and (va_codegen_success_Loop6x_preamble alg) (va_pbool_and
(va_codegen_success_Loop6x_plain alg 0 (va_op_xmm_xmm 2)) (va_pbool_and
(va_codegen_success_MulAdd_step 0 0 (va_op_xmm_xmm 1) (va_op_xmm_xmm 5) (va_op_xmm_xmm 6)
(va_op_xmm_xmm 7) (va_op_xmm_xmm 7) (va_op_xmm_xmm 3)) (va_pbool_and
(va_codegen_success_MulAdd_step 1 1 (va_op_xmm_xmm 5) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)
(va_op_xmm_xmm 3) (va_op_xmm_xmm 0) (va_op_xmm_xmm 3)) (va_pbool_and
(va_codegen_success_Loop6x_plain alg 1 (va_op_xmm_xmm 15)) (va_pbool_and
(va_codegen_success_Loop6x_reverse128 5 2) (va_pbool_and (va_codegen_success_MulAdd_step 2 3
(va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_op_xmm_xmm 5) (va_op_xmm_xmm 0)
(va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_Loop6x_plain alg 2 (va_op_xmm_xmm 15))
(va_pbool_and (va_codegen_success_MulAdd_step 3 4 (va_op_xmm_xmm 2) (va_op_xmm_xmm 3)
(va_op_xmm_xmm 5) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0) (va_op_xmm_xmm 1)) (va_pbool_and
(va_codegen_success_Loop6x_plain alg 3 (va_op_xmm_xmm 15)) (va_pbool_and
(va_codegen_success_Loop6x_reverse128 4 3) (va_pbool_and (va_codegen_success_MulAdd_step 4 6
(va_op_xmm_xmm 3) (va_op_xmm_xmm 5) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 0)
(va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_Loop6x_plain alg 4 (va_op_xmm_xmm 15))
(va_pbool_and (va_codegen_success_Loop6x_reverse128 3 4) (va_pbool_and
(va_codegen_success_MulAdd_step 5 7 (va_op_xmm_xmm 2) (va_op_xmm_xmm 5) (va_op_xmm_xmm 1)
(va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_xmm_xmm 3)) (va_pbool_and
(va_codegen_success_Loop6x_plain alg 5 (va_op_xmm_xmm 15)) (va_pbool_and
(va_codegen_success_Loop6x_reverse128 2 5) (va_pbool_and (va_codegen_success_Load_0xc2_msb
(va_op_xmm_xmm 3)) (va_pbool_and (va_codegen_success_ReduceLast false) (va_pbool_and
(va_codegen_success_Loop6x_plain alg 6 (va_op_xmm_xmm 15)) (va_pbool_and
(va_codegen_success_Loop6x_reverse128 1 6) (va_pbool_and (va_codegen_success_Loop6x_plain alg 7
(va_op_xmm_xmm 1)) (va_pbool_and (va_codegen_success_LoadBe64_buffer128
(va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rR13) (va_op_reg_opr64_reg64 rR14) (0
`op_Multiply` 16 + 8) Secret true) (va_pbool_and (va_codegen_success_LoadBe64_buffer128
(va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rR12) (va_op_reg_opr64_reg64 rR14) (0
`op_Multiply` 16) Secret false) (va_pbool_and (va_codegen_success_Loop6x_plain alg 8
(va_op_xmm_xmm 15)) (va_pbool_and (if (alg = AES_256) then va_pbool_and
(va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 1)
(va_op_reg_opr64_reg64 rRcx) (160 - 128) Secret) (va_pbool_and (va_codegen_success_VAESNI_enc
(va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 1)) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 1))
(va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11)
(va_op_xmm_xmm 1)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 12)
(va_op_xmm_xmm 12) (va_op_xmm_xmm 1)) (va_pbool_and (va_codegen_success_VAESNI_enc
(va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 1)) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 1))
(va_pbool_and (va_codegen_success_Loop6x_plain alg 10 (va_op_xmm_xmm 15)) (va_pbool_and
(va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 1)
(va_op_reg_opr64_reg64 rRcx) (192 - 128) Secret) (va_pbool_and (va_codegen_success_VAESNI_enc
(va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 1)) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 1))
(va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11)
(va_op_xmm_xmm 1)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 12)
(va_op_xmm_xmm 12) (va_op_xmm_xmm 1)) (va_pbool_and (va_codegen_success_VAESNI_enc
(va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 1)) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 1))
(va_pbool_and (va_codegen_success_Loop6x_plain alg 12 (va_op_xmm_xmm 15)) (va_ttrue
())))))))))))))))) else va_ttrue ()) (va_pbool_and (if (alg = AES_256) then va_pbool_and
(va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 1)
(va_op_reg_opr64_reg64 rRcx) (224 - 128) Secret) (va_ttrue ()) else va_pbool_and
(va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 1)
(va_op_reg_opr64_reg64 rRcx) (160 - 128) Secret) (va_ttrue ())) (va_pbool_and
(va_codegen_success_Loop6x_round9 alg) (va_ttrue ())))))))))))))))))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_untransformedoriginal_Loop6x_partial (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32)
(y_prev:quad32) (data:(seq quad32)) (count:nat) (in0_count:nat) (iv_b:buffer128)
(in0_b:buffer128) (in_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq
quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) : (va_quickCode (quad32_6)
(va_code_untransformedoriginal_Loop6x_partial alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in let (prev:Vale.Math.Poly2_s.poly) =
Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 y_prev) in let
(init:quad32_6) = make_six_of #Vale.Def.Types_s.quad32 (fun (n:(va_int_range 0 5)) ->
Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite
ctr_BE n)) (va_get_xmm 15 va_s)) in let (start:(va_int_at_least 0)) = in0_count `op_Multiply` 6
in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 871 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_preamble alg h_LE iv_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE)
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 872 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_plain alg 0 key_words round_keys keys_b init (va_op_xmm_xmm 2)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 873 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_MulAdd_step 0 0 (va_op_xmm_xmm 1) (va_op_xmm_xmm 5) (va_op_xmm_xmm 6) (va_op_xmm_xmm
7) (va_op_xmm_xmm 7) (va_op_xmm_xmm 3) hkeys_b scratch_b h prev data) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 874 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_MulAdd_step 1 1 (va_op_xmm_xmm 5) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm
3) (va_op_xmm_xmm 0) (va_op_xmm_xmm 3) hkeys_b scratch_b h prev data) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 875 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_plain alg 1 key_words round_keys keys_b init (va_op_xmm_xmm 15)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 876 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_reverse128 5 2 start in0_b scratch_b) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 877 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_MulAdd_step 2 3 (va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_op_xmm_xmm
5) (va_op_xmm_xmm 0) (va_op_xmm_xmm 5) hkeys_b scratch_b h prev data) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 878 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_plain alg 2 key_words round_keys keys_b init (va_op_xmm_xmm 15)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 879 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_MulAdd_step 3 4 (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_op_xmm_xmm 5) (va_op_xmm_xmm
1) (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) hkeys_b scratch_b h prev data) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 880 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_plain alg 3 key_words round_keys keys_b init (va_op_xmm_xmm 15)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 881 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_reverse128 4 3 start in0_b scratch_b) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 882 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_MulAdd_step 4 6 (va_op_xmm_xmm 3) (va_op_xmm_xmm 5) (va_op_xmm_xmm 1) (va_op_xmm_xmm
2) (va_op_xmm_xmm 0) (va_op_xmm_xmm 2) hkeys_b scratch_b h prev data) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 883 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_plain alg 4 key_words round_keys keys_b init (va_op_xmm_xmm 15)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 884 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_reverse128 3 4 start in0_b scratch_b) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 885 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_MulAdd_step 5 7 (va_op_xmm_xmm 2) (va_op_xmm_xmm 5) (va_op_xmm_xmm 1) (va_op_xmm_xmm
8) (va_op_xmm_xmm 8) (va_op_xmm_xmm 3) hkeys_b scratch_b h prev data) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 886 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_plain alg 5 key_words round_keys keys_b init (va_op_xmm_xmm 15)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 887 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_reverse128 2 5 start in0_b scratch_b) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 888 column 18 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load_0xc2_msb (va_op_xmm_xmm 3)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 891 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_ReduceLast false h_LE y_prev data) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 892 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_plain alg 6 key_words round_keys keys_b init (va_op_xmm_xmm 15)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 893 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_reverse128 1 6 start in0_b scratch_b) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 894 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_plain alg 7 key_words round_keys keys_b init (va_op_xmm_xmm 1)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 895 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rR13)
(va_op_reg_opr64_reg64 rR14) (0 `op_Multiply` 16 + 8) Secret true in0_b (in0_count
`op_Multiply` 6 + 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 896 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rR12)
(va_op_reg_opr64_reg64 rR14) (0 `op_Multiply` 16) Secret false in0_b (in0_count `op_Multiply` 6
+ 0)) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 897 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_plain alg 8 key_words round_keys keys_b init (va_op_xmm_xmm 15)) (fun
(va_s:va_state) _ -> va_QBind va_range1
"***** PRECONDITION NOT MET AT line 901 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_qInlineIf va_mods (alg = AES_256) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 913 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 1) (va_op_reg_opr64_reg64
rRcx) (160 - 128) Secret keys_b 10) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 914 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 1)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 915 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 1)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 916 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 1)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 917 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 1)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 918 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 1)) (va_QBind
va_range1
"***** PRECONDITION NOT MET AT line 919 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 1)) (fun
(va_s:va_state) _ -> va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 921 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_s.eval_rounds_reveal ()) (va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 922 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.commute_sub_bytes_shift_rows_forall ()) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 923 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_plain alg 10 key_words round_keys keys_b init (va_op_xmm_xmm 15)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 926 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 1) (va_op_reg_opr64_reg64
rRcx) (192 - 128) Secret keys_b 12) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 927 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 1)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 928 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 1)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 929 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 1)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 930 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 1)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 931 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 1)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 932 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 1)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 934 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_plain alg 12 key_words round_keys keys_b init (va_op_xmm_xmm 15)) (va_QEmpty
(()))))))))))))))))))))) (qblock va_mods (fun (va_s:va_state) -> va_QEmpty (())))) (fun
(va_s:va_state) va_g -> va_QBind va_range1
"***** PRECONDITION NOT MET AT line 937 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_qInlineIf va_mods (alg = AES_256) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 939 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 1) (va_op_reg_opr64_reg64
rRcx) (224 - 128) Secret keys_b 14) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) ->
va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 943 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 1) (va_op_reg_opr64_reg64
rRcx) (160 - 128) Secret keys_b 10) (va_QEmpty (()))))) (fun (va_s:va_state) va_g -> va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 946 column 18 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_round9 alg count in_b scratch_b key_words round_keys keys_b) (va_QEmpty
((init))))))))))))))))))))))))))))))))
[@"opaque_to_smt"]
let va_lemma_untransformedoriginal_Loop6x_partial va_b0 va_s0 alg h_LE y_prev data count in0_count
iv_b in0_b in_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_xmm
15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9;
va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm
2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11;
va_Mod_reg64 rRbx; va_Mod_ok; va_Mod_mem] in
let va_qc = va_qcode_untransformedoriginal_Loop6x_partial va_mods alg h_LE y_prev data count
in0_count iv_b in0_b in_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_untransformedoriginal_Loop6x_partial
alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let init = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 758 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in let (prev:Vale.Math.Poly2_s.poly) =
Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 y_prev) in label
va_range1
"***** POSTCONDITION NOT MET AT line 837 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 838 column 70 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0)
(va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 843 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 844 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite
ctr_BE 6) `op_Modulus` 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 847 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys (Vale.AES.AES_common_s.nr alg
- 1)) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 848 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rR13 va_sM == Vale.Def.Types_s.reverse_bytes_nat64 (Vale.Arch.Types.hi64
(Vale.X64.Decls.buffer128_read in0_b (in0_count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6
va_sM)))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 849 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rR12 va_sM == Vale.Def.Types_s.reverse_bytes_nat64 (Vale.Arch.Types.lo64
(Vale.X64.Decls.buffer128_read in0_b (in0_count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6
va_sM)))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 850 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in label
va_range1
"***** POSTCONDITION NOT MET AT line 852 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 2 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5 va_sM, va_get_xmm 6 va_sM, va_get_xmm 7
va_sM, va_get_xmm 3 va_sM) == make_six_of #quad32 (fun (i:(va_int_range 0 5)) ->
Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i)
(va_get_mem_heaplet 6 va_sM)))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 853 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 857 column 122 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (in0_count
`op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 858 column 122 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (in0_count
`op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 859 column 122 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (in0_count
`op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 860 column 122 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (in0_count
`op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 861 column 122 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (in0_count
`op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 863 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(init == make_six_of #quad32 (fun (n:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor
(Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE n))
(FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 864 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(let eventual_Xi = add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM))
(Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1
(va_get_mem_heaplet 3 va_sM)))) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM)) in
label va_range1
"***** POSTCONDITION NOT MET AT line 865 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(eventual_Xi == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GHash.ghash_incremental h_LE y_prev data))))))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_xmm 15;
va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9;
va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm
2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11;
va_Mod_reg64 rRbx; va_Mod_ok; va_Mod_mem]) va_sM va_s0;
let init = va_g in
(va_sM, va_fM, init)
[@ "opaque_to_smt" va_qattr]
let va_transform_Loop6x_partial alg =
(reorder (va_code_untransformedoriginal_Loop6x_partial alg) (va_code_Loop6x_partial_expected_code
alg))
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_partial alg =
(va_get_result (va_transform_Loop6x_partial alg))
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_partial alg =
(va_pbool_and (va_codegen_success_untransformedoriginal_Loop6x_partial alg) (va_get_success
(va_transform_Loop6x_partial alg))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.InsAes.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Transformers.Transform.fsti.checked",
"Vale.Math.Poly2_s.fsti.checked",
"Vale.Math.Poly2.Bits_s.fsti.checked",
"Vale.Math.Poly2.Bits.fsti.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Def.Prop_s.fst.checked",
"Vale.Def.Opaque_s.fsti.checked",
"Vale.Arch.TypesNative.fsti.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"Vale.AES.X64.PolyOps.fsti.checked",
"Vale.AES.X64.AESopt2.fsti.checked",
"Vale.AES.X64.AESGCM_expected_code.fsti.checked",
"Vale.AES.GHash.fsti.checked",
"Vale.AES.GF128_s.fsti.checked",
"Vale.AES.GF128.fsti.checked",
"Vale.AES.GCTR_s.fst.checked",
"Vale.AES.GCTR.fsti.checked",
"Vale.AES.GCM_helpers.fsti.checked",
"Vale.AES.AES_s.fst.checked",
"Vale.AES.AES_helpers.fsti.checked",
"Vale.AES.AES_common_s.fst.checked",
"prims.fst.checked",
"FStar.Seq.Base.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked"
],
"interface_file": true,
"source_file": "Vale.AES.X64.AESopt.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Transformers.Transform",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESGCM_expected_code",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESopt2",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.PolyOps",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GHash",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Math.Poly2_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.TypesNative",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCM_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsAes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"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.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Seq",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_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": "FStar.Mul",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Transformers.Transform",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESGCM_expected_code",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESopt2",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.PolyOps",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GHash",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Math.Poly2_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.TypesNative",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCM_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsAes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"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.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Seq",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_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.AES.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.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": 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": 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.X64.Decls.va_code ->
va_s0: Vale.X64.Decls.va_state ->
alg: Vale.AES.AES_common_s.algorithm ->
h_LE: Vale.X64.Decls.quad32 ->
y_prev: Vale.X64.Decls.quad32 ->
data: FStar.Seq.Base.seq Vale.X64.Decls.quad32 ->
count: Prims.nat ->
in0_count: Prims.nat ->
iv_b: Vale.X64.Memory.buffer128 ->
in0_b: Vale.X64.Memory.buffer128 ->
in_b: Vale.X64.Memory.buffer128 ->
scratch_b: Vale.X64.Memory.buffer128 ->
key_words: FStar.Seq.Base.seq Vale.X64.Memory.nat32 ->
round_keys: FStar.Seq.Base.seq Vale.X64.Decls.quad32 ->
keys_b: Vale.X64.Memory.buffer128 ->
hkeys_b: Vale.X64.Memory.buffer128 ->
ctr_BE: Vale.X64.Decls.quad32
-> Prims.Ghost ((Vale.X64.Decls.va_state * Vale.X64.Decls.va_fuel) * Vale.AES.X64.AESopt.quad32_6) | Prims.Ghost | [] | [] | [
"Vale.X64.Decls.va_code",
"Vale.X64.Decls.va_state",
"Vale.AES.AES_common_s.algorithm",
"Vale.X64.Decls.quad32",
"FStar.Seq.Base.seq",
"Prims.nat",
"Vale.X64.Memory.buffer128",
"Vale.X64.Memory.nat32",
"Vale.X64.Decls.va_fuel",
"Vale.AES.X64.AESopt.quad32_6",
"FStar.Pervasives.Native.Mktuple3",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.X64.State.vale_state",
"Vale.Transformers.Transform.lemma_reorder",
"Prims.unit",
"Vale.X64.Decls.va_reveal_opaque",
"Vale.AES.X64.AESopt.va_code_Loop6x_partial",
"Vale.X64.Decls.va_transformation_result",
"Vale.AES.X64.AESopt.va_transform_Loop6x_partial",
"Vale.AES.X64.AESopt.va_lemma_untransformedoriginal_Loop6x_partial",
"Vale.X64.Machine_s.precode",
"Vale.X64.Decls.ins",
"Vale.X64.Decls.ocmp",
"Vale.AES.X64.AESGCM_expected_code.va_code_Loop6x_partial_expected_code",
"Vale.AES.X64.AESopt.va_code_untransformedoriginal_Loop6x_partial"
] | [] | false | false | false | false | false | let va_lemma_Loop6x_partial
va_b0
va_s0
alg
h_LE
y_prev
data
count
in0_count
iv_b
in0_b
in_b
scratch_b
key_words
round_keys
keys_b
hkeys_b
ctr_BE
=
| let va_orig = va_code_untransformedoriginal_Loop6x_partial alg in
let va_hint = va_code_Loop6x_partial_expected_code alg in
let va_transformed = va_code_Loop6x_partial alg in
let va_sM_orig, va_fM_orig, init =
va_lemma_untransformedoriginal_Loop6x_partial va_orig va_s0 alg h_LE y_prev data count in0_count
iv_b in0_b in_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE
in
va_reveal_opaque (`%va_transform_Loop6x_partial) (va_transform_Loop6x_partial alg);
va_reveal_opaque (`%va_code_Loop6x_partial) (va_code_Loop6x_partial alg);
let va_sM, va_fM = lemma_reorder va_orig va_hint va_transformed va_s0 va_sM_orig va_fM_orig in
(va_sM, va_fM, init) | false |
Vale.PPC64LE.InsStack.fst | Vale.PPC64LE.InsStack.va_code_Store_stack64 | val va_code_Store_stack64 : src:va_operand_reg_opr -> offset:int -> Tot va_code | val va_code_Store_stack64 : src:va_operand_reg_opr -> offset:int -> Tot va_code | let va_code_Store_stack64 src offset =
(Ins (S.StoreStack64 src Secret offset)) | {
"file_name": "obj/Vale.PPC64LE.InsStack.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 42,
"end_line": 143,
"start_col": 0,
"start_line": 142
} | module Vale.PPC64LE.InsStack
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
open Vale.PPC64LE.State
open Vale.PPC64LE.StateLemmas
open Vale.PPC64LE.Decls
open Vale.PPC64LE.InsBasic
open Vale.PPC64LE.InsVector
open Vale.PPC64LE.Stack_Sems
module S = Vale.PPC64LE.Semantics_s
module P = Vale.PPC64LE.Print_s
friend Vale.PPC64LE.Decls
friend Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Stack_Sems
#reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 200"
//-- Alloc_stack
[@ "opaque_to_smt"]
let va_code_Alloc_stack n =
(Ins (S.Alloc n))
[@ "opaque_to_smt"]
let va_codegen_success_Alloc_stack n =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Alloc_stack va_b0 va_s0 n =
va_reveal_opaque (`%va_code_Alloc_stack) (va_code_Alloc_stack n);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Alloc n)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Alloc n)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Alloc_stack n va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Alloc_stack (va_code_Alloc_stack n) va_s0 n in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_reg 1 va_sM (va_update_ok va_sM va_s0)));
va_lemma_norm_mods ([va_Mod_reg 1]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Dealloc_stack
[@ "opaque_to_smt"]
let va_code_Dealloc_stack n =
(Ins (S.Dealloc n))
[@ "opaque_to_smt"]
let va_codegen_success_Dealloc_stack n =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Dealloc_stack va_b0 va_s0 n =
va_reveal_opaque (`%va_code_Dealloc_stack) (va_code_Dealloc_stack n);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Dealloc n)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Dealloc n)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Dealloc_stack n va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Dealloc_stack (va_code_Dealloc_stack n) va_s0 n in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_stack va_sM (va_update_reg 1 va_sM (va_update_ok va_sM
va_s0))));
va_lemma_norm_mods ([va_Mod_stack; va_Mod_reg 1]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Store_stack128
[@ "opaque_to_smt"]
let va_code_Store_stack128 src offset =
(Ins (S.StoreStack128 src Secret offset))
[@ "opaque_to_smt"]
let va_codegen_success_Store_stack128 src offset =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Store_stack128 va_b0 va_s0 src offset =
va_reveal_opaque (`%va_code_Store_stack128) (va_code_Store_stack128 src offset);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.StoreStack128 src Secret offset)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.StoreStack128 src Secret offset)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Store_stack128 src offset va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Store_stack128 (va_code_Store_stack128 src offset) va_s0 src offset
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_stackTaint va_sM (va_update_stack va_sM (va_update_ok va_sM
va_s0))));
va_lemma_norm_mods ([va_Mod_stackTaint; va_Mod_stack]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Load_stack128
[@ "opaque_to_smt"]
let va_code_Load_stack128 dst offset =
(Ins (S.LoadStack128 dst Secret offset))
[@ "opaque_to_smt"]
let va_codegen_success_Load_stack128 dst offset =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Load_stack128 va_b0 va_s0 dst offset =
va_reveal_opaque (`%va_code_Load_stack128) (va_code_Load_stack128 dst offset);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadStack128 dst Secret offset)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadStack128 dst Secret offset)) va_s0 in
Vale.PPC64LE.Stack_i.lemma_valid_taint_stack128 (va_get_reg 1 va_old_s + offset) Secret
(va_get_stackTaint va_old_s);
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Load_stack128 dst offset va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_stack128 (va_code_Load_stack128 dst offset) va_s0 dst offset in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Store_stack64 | {
"checked_file": "/",
"dependencies": [
"Vale.PPC64LE.StateLemmas.fsti.checked",
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_Sems.fst.checked",
"Vale.PPC64LE.Stack_Sems.fst.checked",
"Vale.PPC64LE.Stack_i.fst.checked",
"Vale.PPC64LE.Stack_i.fst.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Print_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.checked",
"Vale.PPC64LE.InsVector.fsti.checked",
"Vale.PPC64LE.InsBasic.fsti.checked",
"Vale.PPC64LE.Decls.fst.checked",
"Vale.PPC64LE.Decls.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": true,
"source_file": "Vale.PPC64LE.InsStack.fst"
} | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Stack_Sems",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Stack_Sems",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.InsVector",
"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.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"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.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"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": 200,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | src: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Prims.int -> Vale.PPC64LE.Decls.va_code | Prims.Tot | [
"total"
] | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Prims.int",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Semantics_s.StoreStack64",
"Vale.Arch.HeapTypes_s.Secret",
"Vale.PPC64LE.Decls.va_code"
] | [] | false | false | false | true | false | let va_code_Store_stack64 src offset =
| (Ins (S.StoreStack64 src Secret offset)) | false |
Vale.PPC64LE.InsStack.fst | Vale.PPC64LE.InsStack.va_codegen_success_Load_stack64 | val va_codegen_success_Load_stack64 : dst:va_operand_reg_opr -> offset:int -> Tot va_pbool | val va_codegen_success_Load_stack64 : dst:va_operand_reg_opr -> offset:int -> Tot va_pbool | let va_codegen_success_Load_stack64 dst offset =
(va_ttrue ()) | {
"file_name": "obj/Vale.PPC64LE.InsStack.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 15,
"end_line": 177,
"start_col": 0,
"start_line": 176
} | module Vale.PPC64LE.InsStack
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
open Vale.PPC64LE.State
open Vale.PPC64LE.StateLemmas
open Vale.PPC64LE.Decls
open Vale.PPC64LE.InsBasic
open Vale.PPC64LE.InsVector
open Vale.PPC64LE.Stack_Sems
module S = Vale.PPC64LE.Semantics_s
module P = Vale.PPC64LE.Print_s
friend Vale.PPC64LE.Decls
friend Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Stack_Sems
#reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 200"
//-- Alloc_stack
[@ "opaque_to_smt"]
let va_code_Alloc_stack n =
(Ins (S.Alloc n))
[@ "opaque_to_smt"]
let va_codegen_success_Alloc_stack n =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Alloc_stack va_b0 va_s0 n =
va_reveal_opaque (`%va_code_Alloc_stack) (va_code_Alloc_stack n);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Alloc n)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Alloc n)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Alloc_stack n va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Alloc_stack (va_code_Alloc_stack n) va_s0 n in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_reg 1 va_sM (va_update_ok va_sM va_s0)));
va_lemma_norm_mods ([va_Mod_reg 1]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Dealloc_stack
[@ "opaque_to_smt"]
let va_code_Dealloc_stack n =
(Ins (S.Dealloc n))
[@ "opaque_to_smt"]
let va_codegen_success_Dealloc_stack n =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Dealloc_stack va_b0 va_s0 n =
va_reveal_opaque (`%va_code_Dealloc_stack) (va_code_Dealloc_stack n);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Dealloc n)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Dealloc n)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Dealloc_stack n va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Dealloc_stack (va_code_Dealloc_stack n) va_s0 n in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_stack va_sM (va_update_reg 1 va_sM (va_update_ok va_sM
va_s0))));
va_lemma_norm_mods ([va_Mod_stack; va_Mod_reg 1]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Store_stack128
[@ "opaque_to_smt"]
let va_code_Store_stack128 src offset =
(Ins (S.StoreStack128 src Secret offset))
[@ "opaque_to_smt"]
let va_codegen_success_Store_stack128 src offset =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Store_stack128 va_b0 va_s0 src offset =
va_reveal_opaque (`%va_code_Store_stack128) (va_code_Store_stack128 src offset);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.StoreStack128 src Secret offset)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.StoreStack128 src Secret offset)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Store_stack128 src offset va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Store_stack128 (va_code_Store_stack128 src offset) va_s0 src offset
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_stackTaint va_sM (va_update_stack va_sM (va_update_ok va_sM
va_s0))));
va_lemma_norm_mods ([va_Mod_stackTaint; va_Mod_stack]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Load_stack128
[@ "opaque_to_smt"]
let va_code_Load_stack128 dst offset =
(Ins (S.LoadStack128 dst Secret offset))
[@ "opaque_to_smt"]
let va_codegen_success_Load_stack128 dst offset =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Load_stack128 va_b0 va_s0 dst offset =
va_reveal_opaque (`%va_code_Load_stack128) (va_code_Load_stack128 dst offset);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadStack128 dst Secret offset)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadStack128 dst Secret offset)) va_s0 in
Vale.PPC64LE.Stack_i.lemma_valid_taint_stack128 (va_get_reg 1 va_old_s + offset) Secret
(va_get_stackTaint va_old_s);
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Load_stack128 dst offset va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_stack128 (va_code_Load_stack128 dst offset) va_s0 dst offset in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Store_stack64
[@ "opaque_to_smt"]
let va_code_Store_stack64 src offset =
(Ins (S.StoreStack64 src Secret offset))
[@ "opaque_to_smt"]
let va_codegen_success_Store_stack64 src offset =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Store_stack64 va_b0 va_s0 src offset =
va_reveal_opaque (`%va_code_Store_stack64) (va_code_Store_stack64 src offset);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.StoreStack64 src Secret offset)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.StoreStack64 src Secret offset)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Store_stack64 src offset va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Store_stack64 (va_code_Store_stack64 src offset) va_s0 src offset in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_stackTaint va_sM (va_update_stack va_sM (va_update_ok va_sM
va_s0))));
va_lemma_norm_mods ([va_Mod_stackTaint; va_Mod_stack]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Load_stack64
[@ "opaque_to_smt"]
let va_code_Load_stack64 dst offset =
(Ins (S.LoadStack64 dst Secret offset)) | {
"checked_file": "/",
"dependencies": [
"Vale.PPC64LE.StateLemmas.fsti.checked",
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_Sems.fst.checked",
"Vale.PPC64LE.Stack_Sems.fst.checked",
"Vale.PPC64LE.Stack_i.fst.checked",
"Vale.PPC64LE.Stack_i.fst.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Print_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.checked",
"Vale.PPC64LE.InsVector.fsti.checked",
"Vale.PPC64LE.InsBasic.fsti.checked",
"Vale.PPC64LE.Decls.fst.checked",
"Vale.PPC64LE.Decls.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": true,
"source_file": "Vale.PPC64LE.InsStack.fst"
} | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Stack_Sems",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Stack_Sems",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.InsVector",
"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.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"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.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"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": 200,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | dst: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Prims.int -> Vale.PPC64LE.Decls.va_pbool | Prims.Tot | [
"total"
] | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Prims.int",
"Vale.PPC64LE.Decls.va_ttrue",
"Vale.PPC64LE.Decls.va_pbool"
] | [] | false | false | false | true | false | let va_codegen_success_Load_stack64 dst offset =
| (va_ttrue ()) | false |
Pulse.Syntax.Builder.fst | Pulse.Syntax.Builder.tm_rewrite | val tm_rewrite : t1: Pulse.Syntax.Base.term -> t2: Pulse.Syntax.Base.term -> Pulse.Syntax.Base.st_term' | let tm_rewrite t1 t2 = Tm_Rewrite { t1; t2 } | {
"file_name": "lib/steel/pulse/Pulse.Syntax.Builder.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 44,
"end_line": 38,
"start_col": 0,
"start_line": 38
} | (*
Copyright 2023 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.
*)
module Pulse.Syntax.Builder
open Pulse.Syntax
let pat_var s = Pat_Var s
let pat_const c = Pat_Constant c
let pat_cons fv vs = Pat_Cons fv vs
let tm_return expected_type insert_eq term = Tm_Return { expected_type; insert_eq; term }
let tm_abs b q ascription body = Tm_Abs { b; q; ascription; body }
let tm_stapp head arg_qual arg = Tm_STApp { head; arg_qual; arg }
let tm_bind binder head body = Tm_Bind { binder; head; body }
let tm_totbind binder head body = Tm_TotBind { binder; head; body }
let tm_if b then_ else_ post = Tm_If { b; then_; else_; post }
let tm_match sc returns_ brs = Tm_Match {sc; returns_; brs}
let tm_elim_exists p = Tm_ElimExists { p }
let tm_intro_exists p witnesses = Tm_IntroExists { p; witnesses }
let tm_while invariant condition condition_var body = Tm_While { invariant; condition; condition_var; body }
let tm_par pre1 body1 post1 pre2 body2 post2 = Tm_Par { pre1; body1; post1; pre2; body2; post2 }
let tm_with_inv name body returns_inv = Tm_WithInv { name; body; returns_inv }
let tm_with_local binder initializer body = Tm_WithLocal { binder; initializer; body } | {
"checked_file": "/",
"dependencies": [
"Pulse.Syntax.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Syntax.Builder.fst"
} | [
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"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 | t1: Pulse.Syntax.Base.term -> t2: Pulse.Syntax.Base.term -> Pulse.Syntax.Base.st_term' | Prims.Tot | [
"total"
] | [] | [
"Pulse.Syntax.Base.term",
"Pulse.Syntax.Base.Tm_Rewrite",
"Pulse.Syntax.Base.Mkst_term'__Tm_Rewrite__payload",
"Pulse.Syntax.Base.st_term'"
] | [] | false | false | false | true | false | let tm_rewrite t1 t2 =
| Tm_Rewrite ({ t1 = t1; t2 = t2 }) | false |
|
Vale.PPC64LE.InsStack.fst | Vale.PPC64LE.InsStack.va_codegen_success_Store_stack64 | val va_codegen_success_Store_stack64 : src:va_operand_reg_opr -> offset:int -> Tot va_pbool | val va_codegen_success_Store_stack64 : src:va_operand_reg_opr -> offset:int -> Tot va_pbool | let va_codegen_success_Store_stack64 src offset =
(va_ttrue ()) | {
"file_name": "obj/Vale.PPC64LE.InsStack.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 15,
"end_line": 147,
"start_col": 0,
"start_line": 146
} | module Vale.PPC64LE.InsStack
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
open Vale.PPC64LE.State
open Vale.PPC64LE.StateLemmas
open Vale.PPC64LE.Decls
open Vale.PPC64LE.InsBasic
open Vale.PPC64LE.InsVector
open Vale.PPC64LE.Stack_Sems
module S = Vale.PPC64LE.Semantics_s
module P = Vale.PPC64LE.Print_s
friend Vale.PPC64LE.Decls
friend Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Stack_Sems
#reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 200"
//-- Alloc_stack
[@ "opaque_to_smt"]
let va_code_Alloc_stack n =
(Ins (S.Alloc n))
[@ "opaque_to_smt"]
let va_codegen_success_Alloc_stack n =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Alloc_stack va_b0 va_s0 n =
va_reveal_opaque (`%va_code_Alloc_stack) (va_code_Alloc_stack n);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Alloc n)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Alloc n)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Alloc_stack n va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Alloc_stack (va_code_Alloc_stack n) va_s0 n in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_reg 1 va_sM (va_update_ok va_sM va_s0)));
va_lemma_norm_mods ([va_Mod_reg 1]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Dealloc_stack
[@ "opaque_to_smt"]
let va_code_Dealloc_stack n =
(Ins (S.Dealloc n))
[@ "opaque_to_smt"]
let va_codegen_success_Dealloc_stack n =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Dealloc_stack va_b0 va_s0 n =
va_reveal_opaque (`%va_code_Dealloc_stack) (va_code_Dealloc_stack n);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Dealloc n)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Dealloc n)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Dealloc_stack n va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Dealloc_stack (va_code_Dealloc_stack n) va_s0 n in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_stack va_sM (va_update_reg 1 va_sM (va_update_ok va_sM
va_s0))));
va_lemma_norm_mods ([va_Mod_stack; va_Mod_reg 1]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Store_stack128
[@ "opaque_to_smt"]
let va_code_Store_stack128 src offset =
(Ins (S.StoreStack128 src Secret offset))
[@ "opaque_to_smt"]
let va_codegen_success_Store_stack128 src offset =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Store_stack128 va_b0 va_s0 src offset =
va_reveal_opaque (`%va_code_Store_stack128) (va_code_Store_stack128 src offset);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.StoreStack128 src Secret offset)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.StoreStack128 src Secret offset)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Store_stack128 src offset va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Store_stack128 (va_code_Store_stack128 src offset) va_s0 src offset
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_stackTaint va_sM (va_update_stack va_sM (va_update_ok va_sM
va_s0))));
va_lemma_norm_mods ([va_Mod_stackTaint; va_Mod_stack]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Load_stack128
[@ "opaque_to_smt"]
let va_code_Load_stack128 dst offset =
(Ins (S.LoadStack128 dst Secret offset))
[@ "opaque_to_smt"]
let va_codegen_success_Load_stack128 dst offset =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Load_stack128 va_b0 va_s0 dst offset =
va_reveal_opaque (`%va_code_Load_stack128) (va_code_Load_stack128 dst offset);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadStack128 dst Secret offset)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadStack128 dst Secret offset)) va_s0 in
Vale.PPC64LE.Stack_i.lemma_valid_taint_stack128 (va_get_reg 1 va_old_s + offset) Secret
(va_get_stackTaint va_old_s);
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Load_stack128 dst offset va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_stack128 (va_code_Load_stack128 dst offset) va_s0 dst offset in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_vec_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_vec_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Store_stack64
[@ "opaque_to_smt"]
let va_code_Store_stack64 src offset =
(Ins (S.StoreStack64 src Secret offset)) | {
"checked_file": "/",
"dependencies": [
"Vale.PPC64LE.StateLemmas.fsti.checked",
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_Sems.fst.checked",
"Vale.PPC64LE.Stack_Sems.fst.checked",
"Vale.PPC64LE.Stack_i.fst.checked",
"Vale.PPC64LE.Stack_i.fst.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Print_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.checked",
"Vale.PPC64LE.InsVector.fsti.checked",
"Vale.PPC64LE.InsBasic.fsti.checked",
"Vale.PPC64LE.Decls.fst.checked",
"Vale.PPC64LE.Decls.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": true,
"source_file": "Vale.PPC64LE.InsStack.fst"
} | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Stack_Sems",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Stack_Sems",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.InsVector",
"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.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"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.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"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": 200,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | src: Vale.PPC64LE.Decls.va_operand_reg_opr -> offset: Prims.int -> Vale.PPC64LE.Decls.va_pbool | Prims.Tot | [
"total"
] | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Prims.int",
"Vale.PPC64LE.Decls.va_ttrue",
"Vale.PPC64LE.Decls.va_pbool"
] | [] | false | false | false | true | false | let va_codegen_success_Store_stack64 src offset =
| (va_ttrue ()) | false |
Pulse.Syntax.Builder.fst | Pulse.Syntax.Builder.tm_with_local_array | val tm_with_local_array : binder: Pulse.Syntax.Base.binder ->
initializer: Pulse.Syntax.Base.term ->
length: Pulse.Syntax.Base.term ->
body: Pulse.Syntax.Base.st_term
-> Pulse.Syntax.Base.st_term' | let tm_with_local_array binder initializer length body = Tm_WithLocalArray { binder; initializer; length; body } | {
"file_name": "lib/steel/pulse/Pulse.Syntax.Builder.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 112,
"end_line": 37,
"start_col": 0,
"start_line": 37
} | (*
Copyright 2023 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.
*)
module Pulse.Syntax.Builder
open Pulse.Syntax
let pat_var s = Pat_Var s
let pat_const c = Pat_Constant c
let pat_cons fv vs = Pat_Cons fv vs
let tm_return expected_type insert_eq term = Tm_Return { expected_type; insert_eq; term }
let tm_abs b q ascription body = Tm_Abs { b; q; ascription; body }
let tm_stapp head arg_qual arg = Tm_STApp { head; arg_qual; arg }
let tm_bind binder head body = Tm_Bind { binder; head; body }
let tm_totbind binder head body = Tm_TotBind { binder; head; body }
let tm_if b then_ else_ post = Tm_If { b; then_; else_; post }
let tm_match sc returns_ brs = Tm_Match {sc; returns_; brs}
let tm_elim_exists p = Tm_ElimExists { p }
let tm_intro_exists p witnesses = Tm_IntroExists { p; witnesses }
let tm_while invariant condition condition_var body = Tm_While { invariant; condition; condition_var; body }
let tm_par pre1 body1 post1 pre2 body2 post2 = Tm_Par { pre1; body1; post1; pre2; body2; post2 }
let tm_with_inv name body returns_inv = Tm_WithInv { name; body; returns_inv } | {
"checked_file": "/",
"dependencies": [
"Pulse.Syntax.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Syntax.Builder.fst"
} | [
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"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 |
binder: Pulse.Syntax.Base.binder ->
initializer: Pulse.Syntax.Base.term ->
length: Pulse.Syntax.Base.term ->
body: Pulse.Syntax.Base.st_term
-> Pulse.Syntax.Base.st_term' | Prims.Tot | [
"total"
] | [] | [
"Pulse.Syntax.Base.binder",
"Pulse.Syntax.Base.term",
"Pulse.Syntax.Base.st_term",
"Pulse.Syntax.Base.Tm_WithLocalArray",
"Pulse.Syntax.Base.Mkst_term'__Tm_WithLocalArray__payload",
"Pulse.Syntax.Base.st_term'"
] | [] | false | false | false | true | false | let tm_with_local_array binder initializer length body =
| Tm_WithLocalArray ({ binder = binder; initializer = initializer; length = length; body = body }) | false |
|
FStar.Real.fsti | FStar.Real.n_over_n2 | val n_over_n2 : n: FStar.Real.real{n <> 0.0R /\ n *. n <> 0.0R} -> Prims.unit | let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 87,
"end_line": 57,
"start_col": 0,
"start_line": 57
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two} | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | n: FStar.Real.real{n <> 0.0R /\ n *. n <> 0.0R} -> Prims.unit | Prims.Tot | [
"total"
] | [] | [
"FStar.Real.real",
"Prims.l_and",
"Prims.b2t",
"Prims.op_disEquality",
"FStar.Real.op_Star_Dot",
"Prims._assert",
"Prims.eq2",
"FStar.Real.op_Slash_Dot",
"Prims.unit"
] | [] | false | false | false | false | false | let n_over_n2 (n: real{n <> 0.0R /\ n *. n <> 0.0R}) =
| assert (n /. (n *. n) == 1.0R /. n) | false |
|
FStar.Real.fsti | FStar.Real.test_le1 | val test_le1 : Prims.unit | let test_le1 = assert (1.0R <=. 2.0R) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 37,
"end_line": 66,
"start_col": 0,
"start_line": 66
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R)) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.b2t",
"FStar.Real.op_Less_Equals_Dot"
] | [] | false | false | false | true | false | let test_le1 =
| assert (1.0R <=. 2.0R) | false |
|
Pulse.Syntax.Builder.fst | Pulse.Syntax.Builder.with_range | val with_range : t: Pulse.Syntax.Base.st_term' -> r: Pulse.Syntax.Base.range -> Pulse.Syntax.Base.st_term | let with_range t r = { term = t; range = r; effect_tag = default_effect_hint } | {
"file_name": "lib/steel/pulse/Pulse.Syntax.Builder.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 78,
"end_line": 42,
"start_col": 0,
"start_line": 42
} | (*
Copyright 2023 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.
*)
module Pulse.Syntax.Builder
open Pulse.Syntax
let pat_var s = Pat_Var s
let pat_const c = Pat_Constant c
let pat_cons fv vs = Pat_Cons fv vs
let tm_return expected_type insert_eq term = Tm_Return { expected_type; insert_eq; term }
let tm_abs b q ascription body = Tm_Abs { b; q; ascription; body }
let tm_stapp head arg_qual arg = Tm_STApp { head; arg_qual; arg }
let tm_bind binder head body = Tm_Bind { binder; head; body }
let tm_totbind binder head body = Tm_TotBind { binder; head; body }
let tm_if b then_ else_ post = Tm_If { b; then_; else_; post }
let tm_match sc returns_ brs = Tm_Match {sc; returns_; brs}
let tm_elim_exists p = Tm_ElimExists { p }
let tm_intro_exists p witnesses = Tm_IntroExists { p; witnesses }
let tm_while invariant condition condition_var body = Tm_While { invariant; condition; condition_var; body }
let tm_par pre1 body1 post1 pre2 body2 post2 = Tm_Par { pre1; body1; post1; pre2; body2; post2 }
let tm_with_inv name body returns_inv = Tm_WithInv { name; body; returns_inv }
let tm_with_local binder initializer body = Tm_WithLocal { binder; initializer; body }
let tm_with_local_array binder initializer length body = Tm_WithLocalArray { binder; initializer; length; body }
let tm_rewrite t1 t2 = Tm_Rewrite { t1; t2 }
let tm_rename pairs t = Tm_ProofHintWithBinders { hint_type = RENAME { pairs; goal=None}; binders=[]; t}
let tm_admit ctag u typ post = Tm_Admit { ctag; u; typ; post } | {
"checked_file": "/",
"dependencies": [
"Pulse.Syntax.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Syntax.Builder.fst"
} | [
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"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 | t: Pulse.Syntax.Base.st_term' -> r: Pulse.Syntax.Base.range -> Pulse.Syntax.Base.st_term | Prims.Tot | [
"total"
] | [] | [
"Pulse.Syntax.Base.st_term'",
"Pulse.Syntax.Base.range",
"Pulse.Syntax.Base.Mkst_term",
"Pulse.Syntax.Base.default_effect_hint",
"Pulse.Syntax.Base.st_term"
] | [] | false | false | false | true | false | let with_range t r =
| { term = t; range = r; effect_tag = default_effect_hint } | false |
|
Pulse.Syntax.Builder.fst | Pulse.Syntax.Builder.mk_rewrite_hint_type | val mk_rewrite_hint_type : t1: Pulse.Syntax.Base.vprop -> t2: Pulse.Syntax.Base.vprop -> Pulse.Syntax.Base.proof_hint_type | let mk_rewrite_hint_type t1 t2 = REWRITE { t1; t2 } | {
"file_name": "lib/steel/pulse/Pulse.Syntax.Builder.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 51,
"end_line": 48,
"start_col": 0,
"start_line": 48
} | (*
Copyright 2023 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.
*)
module Pulse.Syntax.Builder
open Pulse.Syntax
let pat_var s = Pat_Var s
let pat_const c = Pat_Constant c
let pat_cons fv vs = Pat_Cons fv vs
let tm_return expected_type insert_eq term = Tm_Return { expected_type; insert_eq; term }
let tm_abs b q ascription body = Tm_Abs { b; q; ascription; body }
let tm_stapp head arg_qual arg = Tm_STApp { head; arg_qual; arg }
let tm_bind binder head body = Tm_Bind { binder; head; body }
let tm_totbind binder head body = Tm_TotBind { binder; head; body }
let tm_if b then_ else_ post = Tm_If { b; then_; else_; post }
let tm_match sc returns_ brs = Tm_Match {sc; returns_; brs}
let tm_elim_exists p = Tm_ElimExists { p }
let tm_intro_exists p witnesses = Tm_IntroExists { p; witnesses }
let tm_while invariant condition condition_var body = Tm_While { invariant; condition; condition_var; body }
let tm_par pre1 body1 post1 pre2 body2 post2 = Tm_Par { pre1; body1; post1; pre2; body2; post2 }
let tm_with_inv name body returns_inv = Tm_WithInv { name; body; returns_inv }
let tm_with_local binder initializer body = Tm_WithLocal { binder; initializer; body }
let tm_with_local_array binder initializer length body = Tm_WithLocalArray { binder; initializer; length; body }
let tm_rewrite t1 t2 = Tm_Rewrite { t1; t2 }
let tm_rename pairs t = Tm_ProofHintWithBinders { hint_type = RENAME { pairs; goal=None}; binders=[]; t}
let tm_admit ctag u typ post = Tm_Admit { ctag; u; typ; post }
let tm_unreachable = Tm_Unreachable
let with_range t r = { term = t; range = r; effect_tag = default_effect_hint }
let tm_assert_with_binders bs p t = Tm_ProofHintWithBinders { hint_type=ASSERT { p }; binders=bs; t }
let mk_assert_hint_type p = ASSERT { p }
let mk_unfold_hint_type names p = UNFOLD { names; p }
let mk_fold_hint_type names p = FOLD { names; p } | {
"checked_file": "/",
"dependencies": [
"Pulse.Syntax.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Syntax.Builder.fst"
} | [
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"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 | t1: Pulse.Syntax.Base.vprop -> t2: Pulse.Syntax.Base.vprop -> Pulse.Syntax.Base.proof_hint_type | Prims.Tot | [
"total"
] | [] | [
"Pulse.Syntax.Base.vprop",
"Pulse.Syntax.Base.REWRITE",
"Pulse.Syntax.Base.Mkproof_hint_type__REWRITE__payload",
"Pulse.Syntax.Base.proof_hint_type"
] | [] | false | false | false | true | false | let mk_rewrite_hint_type t1 t2 =
| REWRITE ({ t1 = t1; t2 = t2 }) | false |
|
FStar.Real.fsti | FStar.Real.test_lt2 | val test_lt2 : Prims.unit | let test_lt2 = assert (~ (1.0R <. 1.0R)) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 40,
"end_line": 63,
"start_col": 0,
"start_line": 63
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.l_not",
"Prims.b2t",
"FStar.Real.op_Less_Dot"
] | [] | false | false | false | true | false | let test_lt2 =
| assert (~(1.0R <. 1.0R)) | false |
|
FStar.Real.fsti | FStar.Real.test1 | val test1 : Prims.unit | let test1 = assert (one = 1.0R) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 31,
"end_line": 60,
"start_col": 0,
"start_line": 60
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.b2t",
"Prims.op_Equality",
"FStar.Real.real",
"FStar.Real.one"
] | [] | false | false | false | true | false | let test1 =
| assert (one = 1.0R) | false |
|
FStar.Real.fsti | FStar.Real.test | val test : Prims.unit | let test = assert (two >. one) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 30,
"end_line": 59,
"start_col": 0,
"start_line": 59
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.b2t",
"FStar.Real.op_Greater_Dot",
"FStar.Real.two",
"FStar.Real.one"
] | [] | false | false | false | true | false | let test =
| assert (two >. one) | false |
|
FStar.Real.fsti | FStar.Real.test_le2 | val test_le2 : Prims.unit | let test_le2 = assert (1.0R <=. 1.0R) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 37,
"end_line": 67,
"start_col": 0,
"start_line": 67
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R)) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.b2t",
"FStar.Real.op_Less_Equals_Dot"
] | [] | false | false | false | true | false | let test_le2 =
| assert (1.0R <=. 1.0R) | false |
|
FStar.Real.fsti | FStar.Real.test_lt1 | val test_lt1 : Prims.unit | let test_lt1 = assert (1.0R <. 2.0R) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 36,
"end_line": 62,
"start_col": 0,
"start_line": 62
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.b2t",
"FStar.Real.op_Less_Dot"
] | [] | false | false | false | true | false | let test_lt1 =
| assert (1.0R <. 2.0R) | false |
|
Pulse.Syntax.Builder.fst | Pulse.Syntax.Builder.mk_assert_hint_type | val mk_assert_hint_type : p: Pulse.Syntax.Base.vprop -> Pulse.Syntax.Base.proof_hint_type | let mk_assert_hint_type p = ASSERT { p } | {
"file_name": "lib/steel/pulse/Pulse.Syntax.Builder.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 40,
"end_line": 44,
"start_col": 0,
"start_line": 44
} | (*
Copyright 2023 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.
*)
module Pulse.Syntax.Builder
open Pulse.Syntax
let pat_var s = Pat_Var s
let pat_const c = Pat_Constant c
let pat_cons fv vs = Pat_Cons fv vs
let tm_return expected_type insert_eq term = Tm_Return { expected_type; insert_eq; term }
let tm_abs b q ascription body = Tm_Abs { b; q; ascription; body }
let tm_stapp head arg_qual arg = Tm_STApp { head; arg_qual; arg }
let tm_bind binder head body = Tm_Bind { binder; head; body }
let tm_totbind binder head body = Tm_TotBind { binder; head; body }
let tm_if b then_ else_ post = Tm_If { b; then_; else_; post }
let tm_match sc returns_ brs = Tm_Match {sc; returns_; brs}
let tm_elim_exists p = Tm_ElimExists { p }
let tm_intro_exists p witnesses = Tm_IntroExists { p; witnesses }
let tm_while invariant condition condition_var body = Tm_While { invariant; condition; condition_var; body }
let tm_par pre1 body1 post1 pre2 body2 post2 = Tm_Par { pre1; body1; post1; pre2; body2; post2 }
let tm_with_inv name body returns_inv = Tm_WithInv { name; body; returns_inv }
let tm_with_local binder initializer body = Tm_WithLocal { binder; initializer; body }
let tm_with_local_array binder initializer length body = Tm_WithLocalArray { binder; initializer; length; body }
let tm_rewrite t1 t2 = Tm_Rewrite { t1; t2 }
let tm_rename pairs t = Tm_ProofHintWithBinders { hint_type = RENAME { pairs; goal=None}; binders=[]; t}
let tm_admit ctag u typ post = Tm_Admit { ctag; u; typ; post }
let tm_unreachable = Tm_Unreachable
let with_range t r = { term = t; range = r; effect_tag = default_effect_hint } | {
"checked_file": "/",
"dependencies": [
"Pulse.Syntax.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Syntax.Builder.fst"
} | [
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"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 | p: Pulse.Syntax.Base.vprop -> Pulse.Syntax.Base.proof_hint_type | Prims.Tot | [
"total"
] | [] | [
"Pulse.Syntax.Base.vprop",
"Pulse.Syntax.Base.ASSERT",
"Pulse.Syntax.Base.Mkproof_hint_type__ASSERT__payload",
"Pulse.Syntax.Base.proof_hint_type"
] | [] | false | false | false | true | false | let mk_assert_hint_type p =
| ASSERT ({ p = p }) | false |
|
Pulse.Syntax.Builder.fst | Pulse.Syntax.Builder.mk_unfold_hint_type | val mk_unfold_hint_type : names: FStar.Pervasives.Native.option (Prims.list Prims.string) -> p: Pulse.Syntax.Base.vprop
-> Pulse.Syntax.Base.proof_hint_type | let mk_unfold_hint_type names p = UNFOLD { names; p } | {
"file_name": "lib/steel/pulse/Pulse.Syntax.Builder.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 53,
"end_line": 45,
"start_col": 0,
"start_line": 45
} | (*
Copyright 2023 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.
*)
module Pulse.Syntax.Builder
open Pulse.Syntax
let pat_var s = Pat_Var s
let pat_const c = Pat_Constant c
let pat_cons fv vs = Pat_Cons fv vs
let tm_return expected_type insert_eq term = Tm_Return { expected_type; insert_eq; term }
let tm_abs b q ascription body = Tm_Abs { b; q; ascription; body }
let tm_stapp head arg_qual arg = Tm_STApp { head; arg_qual; arg }
let tm_bind binder head body = Tm_Bind { binder; head; body }
let tm_totbind binder head body = Tm_TotBind { binder; head; body }
let tm_if b then_ else_ post = Tm_If { b; then_; else_; post }
let tm_match sc returns_ brs = Tm_Match {sc; returns_; brs}
let tm_elim_exists p = Tm_ElimExists { p }
let tm_intro_exists p witnesses = Tm_IntroExists { p; witnesses }
let tm_while invariant condition condition_var body = Tm_While { invariant; condition; condition_var; body }
let tm_par pre1 body1 post1 pre2 body2 post2 = Tm_Par { pre1; body1; post1; pre2; body2; post2 }
let tm_with_inv name body returns_inv = Tm_WithInv { name; body; returns_inv }
let tm_with_local binder initializer body = Tm_WithLocal { binder; initializer; body }
let tm_with_local_array binder initializer length body = Tm_WithLocalArray { binder; initializer; length; body }
let tm_rewrite t1 t2 = Tm_Rewrite { t1; t2 }
let tm_rename pairs t = Tm_ProofHintWithBinders { hint_type = RENAME { pairs; goal=None}; binders=[]; t}
let tm_admit ctag u typ post = Tm_Admit { ctag; u; typ; post }
let tm_unreachable = Tm_Unreachable
let with_range t r = { term = t; range = r; effect_tag = default_effect_hint }
let tm_assert_with_binders bs p t = Tm_ProofHintWithBinders { hint_type=ASSERT { p }; binders=bs; t } | {
"checked_file": "/",
"dependencies": [
"Pulse.Syntax.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Syntax.Builder.fst"
} | [
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"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 | names: FStar.Pervasives.Native.option (Prims.list Prims.string) -> p: Pulse.Syntax.Base.vprop
-> Pulse.Syntax.Base.proof_hint_type | Prims.Tot | [
"total"
] | [] | [
"FStar.Pervasives.Native.option",
"Prims.list",
"Prims.string",
"Pulse.Syntax.Base.vprop",
"Pulse.Syntax.Base.UNFOLD",
"Pulse.Syntax.Base.Mkproof_hint_type__UNFOLD__payload",
"Pulse.Syntax.Base.proof_hint_type"
] | [] | false | false | false | true | false | let mk_unfold_hint_type names p =
| UNFOLD ({ names = names; p = p }) | false |
|
Pulse.Syntax.Builder.fst | Pulse.Syntax.Builder.tm_admit | val tm_admit : ctag: Pulse.Syntax.Base.ctag ->
u119: Pulse.Syntax.Base.universe ->
typ: Pulse.Syntax.Base.term ->
post: FStar.Pervasives.Native.option Pulse.Syntax.Base.term
-> Pulse.Syntax.Base.st_term' | let tm_admit ctag u typ post = Tm_Admit { ctag; u; typ; post } | {
"file_name": "lib/steel/pulse/Pulse.Syntax.Builder.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 62,
"end_line": 40,
"start_col": 0,
"start_line": 40
} | (*
Copyright 2023 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.
*)
module Pulse.Syntax.Builder
open Pulse.Syntax
let pat_var s = Pat_Var s
let pat_const c = Pat_Constant c
let pat_cons fv vs = Pat_Cons fv vs
let tm_return expected_type insert_eq term = Tm_Return { expected_type; insert_eq; term }
let tm_abs b q ascription body = Tm_Abs { b; q; ascription; body }
let tm_stapp head arg_qual arg = Tm_STApp { head; arg_qual; arg }
let tm_bind binder head body = Tm_Bind { binder; head; body }
let tm_totbind binder head body = Tm_TotBind { binder; head; body }
let tm_if b then_ else_ post = Tm_If { b; then_; else_; post }
let tm_match sc returns_ brs = Tm_Match {sc; returns_; brs}
let tm_elim_exists p = Tm_ElimExists { p }
let tm_intro_exists p witnesses = Tm_IntroExists { p; witnesses }
let tm_while invariant condition condition_var body = Tm_While { invariant; condition; condition_var; body }
let tm_par pre1 body1 post1 pre2 body2 post2 = Tm_Par { pre1; body1; post1; pre2; body2; post2 }
let tm_with_inv name body returns_inv = Tm_WithInv { name; body; returns_inv }
let tm_with_local binder initializer body = Tm_WithLocal { binder; initializer; body }
let tm_with_local_array binder initializer length body = Tm_WithLocalArray { binder; initializer; length; body }
let tm_rewrite t1 t2 = Tm_Rewrite { t1; t2 } | {
"checked_file": "/",
"dependencies": [
"Pulse.Syntax.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Syntax.Builder.fst"
} | [
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"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 |
ctag: Pulse.Syntax.Base.ctag ->
u119: Pulse.Syntax.Base.universe ->
typ: Pulse.Syntax.Base.term ->
post: FStar.Pervasives.Native.option Pulse.Syntax.Base.term
-> Pulse.Syntax.Base.st_term' | Prims.Tot | [
"total"
] | [] | [
"Pulse.Syntax.Base.ctag",
"Pulse.Syntax.Base.universe",
"Pulse.Syntax.Base.term",
"FStar.Pervasives.Native.option",
"Pulse.Syntax.Base.Tm_Admit",
"Pulse.Syntax.Base.Mkst_term'__Tm_Admit__payload",
"Pulse.Syntax.Base.st_term'"
] | [] | false | false | false | true | false | let tm_admit ctag u typ post =
| Tm_Admit ({ ctag = ctag; u = u; typ = typ; post = post }) | false |
|
Pulse.Syntax.Builder.fst | Pulse.Syntax.Builder.tm_unreachable | val tm_unreachable : Pulse.Syntax.Base.st_term' | let tm_unreachable = Tm_Unreachable | {
"file_name": "lib/steel/pulse/Pulse.Syntax.Builder.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 35,
"end_line": 41,
"start_col": 0,
"start_line": 41
} | (*
Copyright 2023 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.
*)
module Pulse.Syntax.Builder
open Pulse.Syntax
let pat_var s = Pat_Var s
let pat_const c = Pat_Constant c
let pat_cons fv vs = Pat_Cons fv vs
let tm_return expected_type insert_eq term = Tm_Return { expected_type; insert_eq; term }
let tm_abs b q ascription body = Tm_Abs { b; q; ascription; body }
let tm_stapp head arg_qual arg = Tm_STApp { head; arg_qual; arg }
let tm_bind binder head body = Tm_Bind { binder; head; body }
let tm_totbind binder head body = Tm_TotBind { binder; head; body }
let tm_if b then_ else_ post = Tm_If { b; then_; else_; post }
let tm_match sc returns_ brs = Tm_Match {sc; returns_; brs}
let tm_elim_exists p = Tm_ElimExists { p }
let tm_intro_exists p witnesses = Tm_IntroExists { p; witnesses }
let tm_while invariant condition condition_var body = Tm_While { invariant; condition; condition_var; body }
let tm_par pre1 body1 post1 pre2 body2 post2 = Tm_Par { pre1; body1; post1; pre2; body2; post2 }
let tm_with_inv name body returns_inv = Tm_WithInv { name; body; returns_inv }
let tm_with_local binder initializer body = Tm_WithLocal { binder; initializer; body }
let tm_with_local_array binder initializer length body = Tm_WithLocalArray { binder; initializer; length; body }
let tm_rewrite t1 t2 = Tm_Rewrite { t1; t2 }
let tm_rename pairs t = Tm_ProofHintWithBinders { hint_type = RENAME { pairs; goal=None}; binders=[]; t} | {
"checked_file": "/",
"dependencies": [
"Pulse.Syntax.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Syntax.Builder.fst"
} | [
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"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 | Pulse.Syntax.Base.st_term' | Prims.Tot | [
"total"
] | [] | [
"Pulse.Syntax.Base.Tm_Unreachable"
] | [] | false | false | false | true | false | let tm_unreachable =
| Tm_Unreachable | false |
|
FStar.Real.fsti | FStar.Real.test_lt3 | val test_lt3 : Prims.unit | let test_lt3 = assert (~ (2.0R <. 1.0R)) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 40,
"end_line": 64,
"start_col": 0,
"start_line": 64
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.l_not",
"Prims.b2t",
"FStar.Real.op_Less_Dot"
] | [] | false | false | false | true | false | let test_lt3 =
| assert (~(2.0R <. 1.0R)) | false |
|
FStar.Real.fsti | FStar.Real.test_ge2 | val test_ge2 : Prims.unit | let test_ge2 = assert (1.0R >=. 1.0R) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 37,
"end_line": 75,
"start_col": 0,
"start_line": 75
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R))
let test_gt1 = assert (~ (1.0R >. 2.0R))
let test_gt2 = assert (~ (1.0R >. 1.0R))
let test_gt3 = assert (2.0R >. 1.0R) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.b2t",
"FStar.Real.op_Greater_Equals_Dot"
] | [] | false | false | false | true | false | let test_ge2 =
| assert (1.0R >=. 1.0R) | false |
|
Hacl.Impl.P256.PointDouble.fst | Hacl.Impl.P256.PointDouble.point_double_noalloc | val point_double_noalloc: tmp:lbuffer uint64 20ul -> res:point -> p:point -> Stack unit
(requires fun h ->
live h p /\ live h res /\ live h tmp /\
eq_or_disjoint p res /\ disjoint tmp res /\ disjoint tmp p /\
point_inv h p)
(ensures fun h0 _ h1 -> modifies (loc res |+| loc tmp) h0 h1 /\
point_inv h1 res /\
from_mont_point (as_point_nat h1 res) ==
S.point_double (from_mont_point (as_point_nat h0 p))) | val point_double_noalloc: tmp:lbuffer uint64 20ul -> res:point -> p:point -> Stack unit
(requires fun h ->
live h p /\ live h res /\ live h tmp /\
eq_or_disjoint p res /\ disjoint tmp res /\ disjoint tmp p /\
point_inv h p)
(ensures fun h0 _ h1 -> modifies (loc res |+| loc tmp) h0 h1 /\
point_inv h1 res /\
from_mont_point (as_point_nat h1 res) ==
S.point_double (from_mont_point (as_point_nat h0 p))) | let point_double_noalloc tmp res p =
let x, z = getx p, getz p in
let x3, y3, z3 = getx res, gety res, getz res in
let t0 = sub tmp 0ul 4ul in
let t1 = sub tmp 4ul 4ul in
let t2 = sub tmp 8ul 4ul in
let t3 = sub tmp 12ul 4ul in
let t4 = sub tmp 16ul 4ul in
point_double_1 t0 t1 t2 t3 t4 p;
fmul z3 x z;
point_double_2 x3 y3 z3 t2;
point_double_3 x3 y3 t1 t2 t3;
point_double_4 z3 t0 t2 t3;
point_double_5 y3 z3 t0 t2 t3;
point_double_6 x3 z3 t0 t1 t4 | {
"file_name": "code/ecdsap256/Hacl.Impl.P256.PointDouble.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 31,
"end_line": 219,
"start_col": 0,
"start_line": 205
} | module Hacl.Impl.P256.PointDouble
open FStar.Mul
open FStar.HyperStack.All
open FStar.HyperStack
module ST = FStar.HyperStack.ST
open Lib.IntTypes
open Lib.Buffer
open Hacl.Impl.P256.Bignum
open Hacl.Impl.P256.Field
module S = Spec.P256
#set-options "--z3rlimit 50 --ifuel 0 --fuel 0"
inline_for_extraction noextract
val point_double_1 (t0 t1 t2 t3 t4:felem) (p:point) : Stack unit
(requires fun h ->
live h t0 /\ live h t1 /\ live h t2 /\
live h t3 /\ live h t4 /\ live h p /\
LowStar.Monotonic.Buffer.all_disjoint
[loc t0; loc t1; loc t2; loc t3; loc t4; loc p ] /\
point_inv h p)
(ensures fun h0 _ h1 -> modifies (loc t0 |+| loc t1 |+| loc t2 |+| loc t3 |+| loc t4) h0 h1 /\
as_nat h1 t0 < S.prime /\ as_nat h1 t1 < S.prime /\
as_nat h1 t2 < S.prime /\ as_nat h1 t3 < S.prime /\
as_nat h1 t4 < S.prime /\
(let x, y, z = from_mont_point (as_point_nat h0 p) in
let t0_s = S.fmul x x in
let t1_s = S.fmul y y in
let t2_s = S.fmul z z in
let t3_s = S.fmul x y in
let t3_s = S.fadd t3_s t3_s in
let t4_s = S.fmul y z in
fmont_as_nat h1 t0 == t0_s /\ fmont_as_nat h1 t1 == t1_s /\
fmont_as_nat h1 t2 == t2_s /\ fmont_as_nat h1 t3 == t3_s /\
fmont_as_nat h1 t4 == t4_s))
let point_double_1 t0 t1 t2 t3 t4 p =
let x, y, z = getx p, gety p, getz p in
fsqr t0 x;
fsqr t1 y;
fsqr t2 z;
fmul t3 x y;
fdouble t3 t3;
fmul t4 y z
inline_for_extraction noextract
val point_double_2 (x3 y3 z3 t2:felem) : Stack unit
(requires fun h ->
live h x3 /\ live h y3 /\ live h z3 /\ live h t2 /\
LowStar.Monotonic.Buffer.all_disjoint [ loc x3; loc y3; loc z3; loc t2 ] /\
as_nat h z3 < S.prime /\ as_nat h t2 < S.prime)
(ensures fun h0 _ h1 -> modifies (loc x3 |+| loc y3 |+| loc z3) h0 h1 /\
as_nat h1 x3 < S.prime /\ as_nat h1 y3 < S.prime /\ as_nat h1 z3 < S.prime /\
(let z3_s = fmont_as_nat h0 z3 in
let t2_s = fmont_as_nat h0 t2 in
let z3_s = S.fadd z3_s z3_s in
let y3_s = S.fmul S.b_coeff t2_s in
let y3_s = S.fsub y3_s z3_s in
let x3_s = S.fadd y3_s y3_s in
let y3_s = S.fadd x3_s y3_s in
fmont_as_nat h1 x3 == x3_s /\ fmont_as_nat h1 y3 == y3_s /\
fmont_as_nat h1 z3 == z3_s))
let point_double_2 x3 y3 z3 t2 =
fdouble z3 z3;
fmul_by_b_coeff y3 t2;
fsub y3 y3 z3;
fdouble x3 y3;
fadd y3 x3 y3
inline_for_extraction noextract
val point_double_3 (x3 y3 t1 t2 t3:felem) : Stack unit
(requires fun h ->
live h x3 /\ live h y3 /\ live h t1 /\ live h t2 /\ live h t3 /\
LowStar.Monotonic.Buffer.all_disjoint [ loc x3; loc y3; loc t1; loc t2; loc t3 ] /\
as_nat h t1 < S.prime /\ as_nat h t2 < S.prime /\
as_nat h t3 < S.prime /\ as_nat h y3 < S.prime)
(ensures fun h0 _ h1 -> modifies (loc x3 |+| loc y3 |+| loc t2 |+| loc t3) h0 h1 /\
as_nat h1 x3 < S.prime /\ as_nat h1 y3 < S.prime /\
as_nat h1 t2 < S.prime /\ as_nat h1 t3 < S.prime /\
(let t1_s = fmont_as_nat h0 t1 in
let t2_s = fmont_as_nat h0 t2 in
let t3_s = fmont_as_nat h0 t3 in
let y3_s = fmont_as_nat h0 y3 in
let x3_s = S.fsub t1_s y3_s in
let y3_s = S.fadd t1_s y3_s in
let y3_s = S.fmul x3_s y3_s in
let x3_s = S.fmul x3_s t3_s in
let t3_s = S.fadd t2_s t2_s in
let t2_s = S.fadd t2_s t3_s in
fmont_as_nat h1 x3 == x3_s /\ fmont_as_nat h1 y3 == y3_s /\
fmont_as_nat h1 t2 == t2_s /\ fmont_as_nat h1 t3 == t3_s))
let point_double_3 x3 y3 t1 t2 t3 =
fsub x3 t1 y3;
fadd y3 t1 y3;
fmul y3 x3 y3;
fmul x3 x3 t3;
fdouble t3 t2;
fadd t2 t2 t3
inline_for_extraction noextract
val point_double_4 (z3 t0 t2 t3:felem) : Stack unit
(requires fun h ->
live h z3 /\ live h t0 /\ live h t2 /\ live h t3 /\
LowStar.Monotonic.Buffer.all_disjoint [ loc z3; loc t0; loc t2; loc t3 ] /\
as_nat h z3 < S.prime /\ as_nat h t0 < S.prime /\ as_nat h t2 < S.prime)
(ensures fun h0 _ h1 -> modifies (loc z3 |+| loc t3) h0 h1 /\
as_nat h1 z3 < S.prime /\ as_nat h1 t3 < S.prime /\
(let z3_s = fmont_as_nat h0 z3 in
let t0_s = fmont_as_nat h0 t0 in
let t2_s = fmont_as_nat h0 t2 in
let z3_s = S.fmul S.b_coeff z3_s in
let z3_s = S.fsub z3_s t2_s in
let z3_s = S.fsub z3_s t0_s in
let t3_s = S.fadd z3_s z3_s in
let z3_s = S.fadd z3_s t3_s in
fmont_as_nat h1 z3 == z3_s /\ fmont_as_nat h1 t3 == t3_s))
let point_double_4 z3 t0 t2 t3 =
fmul_by_b_coeff z3 z3;
fsub z3 z3 t2;
fsub z3 z3 t0;
fdouble t3 z3;
fadd z3 z3 t3
inline_for_extraction noextract
val point_double_5 (y3 z3 t0 t2 t3:felem) : Stack unit
(requires fun h ->
live h y3 /\ live h z3 /\ live h t0 /\ live h t2 /\ live h t3 /\
LowStar.Monotonic.Buffer.all_disjoint [ loc y3; loc z3; loc t0; loc t2; loc t3 ] /\
as_nat h y3 < S.prime /\ as_nat h z3 < S.prime /\
as_nat h t0 < S.prime /\ as_nat h t2 < S.prime)
(ensures fun h0 _ h1 -> modifies (loc y3 |+| loc t0 |+| loc t3) h0 h1 /\
as_nat h1 y3 < S.prime /\ as_nat h1 t3 < S.prime /\
(let t0_s = fmont_as_nat h0 t0 in
let t2_s = fmont_as_nat h0 t2 in
let y3_s = fmont_as_nat h0 y3 in
let z3_s = fmont_as_nat h0 z3 in
let t3_s = S.fadd t0_s t0_s in
let t0_s = S.fadd t3_s t0_s in
let t0_s = S.fsub t0_s t2_s in
let t0_s = S.fmul t0_s z3_s in
let y3_s = S.fadd y3_s t0_s in
fmont_as_nat h1 y3 == y3_s /\ fmont_as_nat h1 t0 == t0_s /\ fmont_as_nat h1 t3 == t3_s))
let point_double_5 y3 z3 t0 t2 t3 =
fdouble t3 t0;
fadd t0 t3 t0;
fsub t0 t0 t2;
fmul t0 t0 z3;
fadd y3 y3 t0
inline_for_extraction noextract
val point_double_6 (x3 z3 t0 t1 t4:felem) : Stack unit
(requires fun h ->
live h x3 /\ live h z3 /\ live h t0 /\ live h t1 /\ live h t4 /\
LowStar.Monotonic.Buffer.all_disjoint [ loc x3; loc z3; loc t0; loc t1; loc t4 ] /\
as_nat h x3 < S.prime /\ as_nat h z3 < S.prime /\
as_nat h t1 < S.prime /\ as_nat h t4 < S.prime)
(ensures fun h0 _ h1 -> modifies (loc x3 |+| loc z3 |+| loc t0) h0 h1 /\
as_nat h1 x3 < S.prime /\ as_nat h1 z3 < S.prime /\ as_nat h1 t0 < S.prime /\
(let t1_s = fmont_as_nat h0 t1 in
let t4_s = fmont_as_nat h0 t4 in
let x3_s = fmont_as_nat h0 x3 in
let z3_s = fmont_as_nat h0 z3 in
let t0_s = S.fadd t4_s t4_s in
let z3_s = S.fmul t0_s z3_s in
let x3_s = S.fsub x3_s z3_s in
let z3_s = S.fmul t0_s t1_s in
let z3_s = S.fadd z3_s z3_s in
let z3_s = S.fadd z3_s z3_s in
fmont_as_nat h1 z3 == z3_s /\ fmont_as_nat h1 x3 == x3_s /\ fmont_as_nat h1 t0 == t0_s))
let point_double_6 x3 z3 t0 t1 t4 =
fdouble t0 t4;
fmul z3 t0 z3;
fsub x3 x3 z3;
fmul z3 t0 t1;
fdouble z3 z3;
fdouble z3 z3
inline_for_extraction noextract
val point_double_noalloc: tmp:lbuffer uint64 20ul -> res:point -> p:point -> Stack unit
(requires fun h ->
live h p /\ live h res /\ live h tmp /\
eq_or_disjoint p res /\ disjoint tmp res /\ disjoint tmp p /\
point_inv h p)
(ensures fun h0 _ h1 -> modifies (loc res |+| loc tmp) h0 h1 /\
point_inv h1 res /\
from_mont_point (as_point_nat h1 res) ==
S.point_double (from_mont_point (as_point_nat h0 p))) | {
"checked_file": "/",
"dependencies": [
"Spec.P256.fst.checked",
"prims.fst.checked",
"LowStar.Monotonic.Buffer.fsti.checked",
"Lib.IntTypes.fsti.checked",
"Lib.Buffer.fsti.checked",
"Hacl.Impl.P256.Field.fsti.checked",
"Hacl.Impl.P256.Bignum.fsti.checked",
"FStar.UInt32.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.HyperStack.ST.fsti.checked",
"FStar.HyperStack.All.fst.checked",
"FStar.HyperStack.fst.checked"
],
"interface_file": true,
"source_file": "Hacl.Impl.P256.PointDouble.fst"
} | [
{
"abbrev": true,
"full_module": "Spec.P256",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Hacl.Impl.P256.Field",
"short_module": null
},
{
"abbrev": false,
"full_module": "Hacl.Impl.P256.Bignum",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib.Buffer",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib.IntTypes",
"short_module": null
},
{
"abbrev": true,
"full_module": "FStar.HyperStack.ST",
"short_module": "ST"
},
{
"abbrev": false,
"full_module": "FStar.HyperStack",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.HyperStack.All",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": true,
"full_module": "Spec.P256",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Hacl.Impl.P256.Point",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib.Buffer",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib.IntTypes",
"short_module": null
},
{
"abbrev": true,
"full_module": "FStar.HyperStack.ST",
"short_module": "ST"
},
{
"abbrev": false,
"full_module": "FStar.HyperStack",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.HyperStack.All",
"short_module": null
},
{
"abbrev": false,
"full_module": "Hacl.Impl.P256",
"short_module": null
},
{
"abbrev": false,
"full_module": "Hacl.Impl.P256",
"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 |
tmp: Lib.Buffer.lbuffer Lib.IntTypes.uint64 20ul ->
res: Hacl.Impl.P256.Point.point ->
p: Hacl.Impl.P256.Point.point
-> FStar.HyperStack.ST.Stack Prims.unit | FStar.HyperStack.ST.Stack | [] | [] | [
"Lib.Buffer.lbuffer",
"Lib.IntTypes.uint64",
"FStar.UInt32.__uint_to_t",
"Hacl.Impl.P256.Point.point",
"Hacl.Impl.P256.Bignum.felem",
"Hacl.Impl.P256.PointDouble.point_double_6",
"Prims.unit",
"Hacl.Impl.P256.PointDouble.point_double_5",
"Hacl.Impl.P256.PointDouble.point_double_4",
"Hacl.Impl.P256.PointDouble.point_double_3",
"Hacl.Impl.P256.PointDouble.point_double_2",
"Hacl.Impl.P256.Field.fmul",
"Hacl.Impl.P256.PointDouble.point_double_1",
"Lib.Buffer.lbuffer_t",
"Lib.Buffer.MUT",
"Lib.IntTypes.int_t",
"Lib.IntTypes.U64",
"Lib.IntTypes.SEC",
"FStar.UInt32.uint_to_t",
"FStar.UInt32.t",
"Lib.Buffer.sub",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.Mktuple3",
"Hacl.Impl.P256.Point.getz",
"Hacl.Impl.P256.Point.gety",
"Hacl.Impl.P256.Point.getx",
"FStar.Pervasives.Native.tuple2",
"FStar.Pervasives.Native.Mktuple2"
] | [] | false | true | false | false | false | let point_double_noalloc tmp res p =
| let x, z = getx p, getz p in
let x3, y3, z3 = getx res, gety res, getz res in
let t0 = sub tmp 0ul 4ul in
let t1 = sub tmp 4ul 4ul in
let t2 = sub tmp 8ul 4ul in
let t3 = sub tmp 12ul 4ul in
let t4 = sub tmp 16ul 4ul in
point_double_1 t0 t1 t2 t3 t4 p;
fmul z3 x z;
point_double_2 x3 y3 z3 t2;
point_double_3 x3 y3 t1 t2 t3;
point_double_4 z3 t0 t2 t3;
point_double_5 y3 z3 t0 t2 t3;
point_double_6 x3 z3 t0 t1 t4 | false |
Pulse.Syntax.Builder.fst | Pulse.Syntax.Builder.mk_rename_hint_type | val mk_rename_hint_type : pairs: Prims.list (Pulse.Syntax.Base.term * Pulse.Syntax.Base.term) ->
goal: FStar.Pervasives.Native.option Pulse.Syntax.Base.term
-> Pulse.Syntax.Base.proof_hint_type | let mk_rename_hint_type pairs goal = RENAME { pairs; goal } | {
"file_name": "lib/steel/pulse/Pulse.Syntax.Builder.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 59,
"end_line": 47,
"start_col": 0,
"start_line": 47
} | (*
Copyright 2023 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.
*)
module Pulse.Syntax.Builder
open Pulse.Syntax
let pat_var s = Pat_Var s
let pat_const c = Pat_Constant c
let pat_cons fv vs = Pat_Cons fv vs
let tm_return expected_type insert_eq term = Tm_Return { expected_type; insert_eq; term }
let tm_abs b q ascription body = Tm_Abs { b; q; ascription; body }
let tm_stapp head arg_qual arg = Tm_STApp { head; arg_qual; arg }
let tm_bind binder head body = Tm_Bind { binder; head; body }
let tm_totbind binder head body = Tm_TotBind { binder; head; body }
let tm_if b then_ else_ post = Tm_If { b; then_; else_; post }
let tm_match sc returns_ brs = Tm_Match {sc; returns_; brs}
let tm_elim_exists p = Tm_ElimExists { p }
let tm_intro_exists p witnesses = Tm_IntroExists { p; witnesses }
let tm_while invariant condition condition_var body = Tm_While { invariant; condition; condition_var; body }
let tm_par pre1 body1 post1 pre2 body2 post2 = Tm_Par { pre1; body1; post1; pre2; body2; post2 }
let tm_with_inv name body returns_inv = Tm_WithInv { name; body; returns_inv }
let tm_with_local binder initializer body = Tm_WithLocal { binder; initializer; body }
let tm_with_local_array binder initializer length body = Tm_WithLocalArray { binder; initializer; length; body }
let tm_rewrite t1 t2 = Tm_Rewrite { t1; t2 }
let tm_rename pairs t = Tm_ProofHintWithBinders { hint_type = RENAME { pairs; goal=None}; binders=[]; t}
let tm_admit ctag u typ post = Tm_Admit { ctag; u; typ; post }
let tm_unreachable = Tm_Unreachable
let with_range t r = { term = t; range = r; effect_tag = default_effect_hint }
let tm_assert_with_binders bs p t = Tm_ProofHintWithBinders { hint_type=ASSERT { p }; binders=bs; t }
let mk_assert_hint_type p = ASSERT { p }
let mk_unfold_hint_type names p = UNFOLD { names; p } | {
"checked_file": "/",
"dependencies": [
"Pulse.Syntax.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Syntax.Builder.fst"
} | [
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"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 |
pairs: Prims.list (Pulse.Syntax.Base.term * Pulse.Syntax.Base.term) ->
goal: FStar.Pervasives.Native.option Pulse.Syntax.Base.term
-> Pulse.Syntax.Base.proof_hint_type | Prims.Tot | [
"total"
] | [] | [
"Prims.list",
"FStar.Pervasives.Native.tuple2",
"Pulse.Syntax.Base.term",
"FStar.Pervasives.Native.option",
"Pulse.Syntax.Base.RENAME",
"Pulse.Syntax.Base.Mkproof_hint_type__RENAME__payload",
"Pulse.Syntax.Base.proof_hint_type"
] | [] | false | false | false | true | false | let mk_rename_hint_type pairs goal =
| RENAME ({ pairs = pairs; goal = goal }) | false |
|
FStar.Real.fsti | FStar.Real.test_ge1 | val test_ge1 : Prims.unit | let test_ge1 = assert (~ (1.0R >=. 2.0R)) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 41,
"end_line": 74,
"start_col": 0,
"start_line": 74
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R))
let test_gt1 = assert (~ (1.0R >. 2.0R))
let test_gt2 = assert (~ (1.0R >. 1.0R))
let test_gt3 = assert (2.0R >. 1.0R) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.l_not",
"Prims.b2t",
"FStar.Real.op_Greater_Equals_Dot"
] | [] | false | false | false | true | false | let test_ge1 =
| assert (~(1.0R >=. 2.0R)) | false |
|
Pulse.Syntax.Builder.fst | Pulse.Syntax.Builder.tm_assert_with_binders | val tm_assert_with_binders : bs: Prims.list Pulse.Syntax.Base.binder ->
p: Pulse.Syntax.Base.vprop ->
t: Pulse.Syntax.Base.st_term
-> Pulse.Syntax.Base.st_term' | let tm_assert_with_binders bs p t = Tm_ProofHintWithBinders { hint_type=ASSERT { p }; binders=bs; t } | {
"file_name": "lib/steel/pulse/Pulse.Syntax.Builder.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 101,
"end_line": 43,
"start_col": 0,
"start_line": 43
} | (*
Copyright 2023 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.
*)
module Pulse.Syntax.Builder
open Pulse.Syntax
let pat_var s = Pat_Var s
let pat_const c = Pat_Constant c
let pat_cons fv vs = Pat_Cons fv vs
let tm_return expected_type insert_eq term = Tm_Return { expected_type; insert_eq; term }
let tm_abs b q ascription body = Tm_Abs { b; q; ascription; body }
let tm_stapp head arg_qual arg = Tm_STApp { head; arg_qual; arg }
let tm_bind binder head body = Tm_Bind { binder; head; body }
let tm_totbind binder head body = Tm_TotBind { binder; head; body }
let tm_if b then_ else_ post = Tm_If { b; then_; else_; post }
let tm_match sc returns_ brs = Tm_Match {sc; returns_; brs}
let tm_elim_exists p = Tm_ElimExists { p }
let tm_intro_exists p witnesses = Tm_IntroExists { p; witnesses }
let tm_while invariant condition condition_var body = Tm_While { invariant; condition; condition_var; body }
let tm_par pre1 body1 post1 pre2 body2 post2 = Tm_Par { pre1; body1; post1; pre2; body2; post2 }
let tm_with_inv name body returns_inv = Tm_WithInv { name; body; returns_inv }
let tm_with_local binder initializer body = Tm_WithLocal { binder; initializer; body }
let tm_with_local_array binder initializer length body = Tm_WithLocalArray { binder; initializer; length; body }
let tm_rewrite t1 t2 = Tm_Rewrite { t1; t2 }
let tm_rename pairs t = Tm_ProofHintWithBinders { hint_type = RENAME { pairs; goal=None}; binders=[]; t}
let tm_admit ctag u typ post = Tm_Admit { ctag; u; typ; post }
let tm_unreachable = Tm_Unreachable | {
"checked_file": "/",
"dependencies": [
"Pulse.Syntax.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Syntax.Builder.fst"
} | [
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"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 |
bs: Prims.list Pulse.Syntax.Base.binder ->
p: Pulse.Syntax.Base.vprop ->
t: Pulse.Syntax.Base.st_term
-> Pulse.Syntax.Base.st_term' | Prims.Tot | [
"total"
] | [] | [
"Prims.list",
"Pulse.Syntax.Base.binder",
"Pulse.Syntax.Base.vprop",
"Pulse.Syntax.Base.st_term",
"Pulse.Syntax.Base.Tm_ProofHintWithBinders",
"Pulse.Syntax.Base.Mkst_term'__Tm_ProofHintWithBinders__payload",
"Pulse.Syntax.Base.ASSERT",
"Pulse.Syntax.Base.Mkproof_hint_type__ASSERT__payload",
"Pulse.Syntax.Base.st_term'"
] | [] | false | false | false | true | false | let tm_assert_with_binders bs p t =
| Tm_ProofHintWithBinders ({ hint_type = ASSERT ({ p = p }); binders = bs; t = t }) | false |
|
FStar.Real.fsti | FStar.Real.test_gt1 | val test_gt1 : Prims.unit | let test_gt1 = assert (~ (1.0R >. 2.0R)) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 40,
"end_line": 70,
"start_col": 0,
"start_line": 70
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R)) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.l_not",
"Prims.b2t",
"FStar.Real.op_Greater_Dot"
] | [] | false | false | false | true | false | let test_gt1 =
| assert (~(1.0R >. 2.0R)) | false |
|
FStar.Real.fsti | FStar.Real.test_le3 | val test_le3 : Prims.unit | let test_le3 = assert (~ (2.0R <=. 1.0R)) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 41,
"end_line": 68,
"start_col": 0,
"start_line": 68
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.l_not",
"Prims.b2t",
"FStar.Real.op_Less_Equals_Dot"
] | [] | false | false | false | true | false | let test_le3 =
| assert (~(2.0R <=. 1.0R)) | false |
|
Vale.AES.X64.AESopt.fst | Vale.AES.X64.AESopt.va_code_Loop6x | val va_code_Loop6x : alg:algorithm -> Tot va_code | val va_code_Loop6x : alg:algorithm -> Tot va_code | let va_code_Loop6x alg =
(va_Block (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons
(va_code_Loop6x_partial alg) (va_CCons (va_code_Loop6x_final alg) (va_CCons (va_code_Sub64
(va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6)) (va_CCons (va_code_Add64
(va_op_dst_opr64_reg64 rR14) (va_const_opr64 96)) (va_CCons (va_Block (va_CNil ())) (va_CCons
(va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ())) (va_CCons (va_Block (va_CNil ()))
(va_CCons (va_IfElse (va_cmp_gt (va_op_cmp_reg64 rRdx) (va_const_cmp 0)) (va_Block (va_CCons
(va_code_Loop6x_save_output ()) (va_CCons (va_Block (va_CNil ())) (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 7) (va_op_reg_opr64_reg64
rRbp) 32 Secret) (va_CCons (va_Block (va_CNil ())) (va_CNil ())))))) (va_Block (va_CCons
(va_code_Mem128_lemma ()) (va_CCons (va_code_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8)
(va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 3) (va_op_reg64_reg64 rRbp) 16 Secret))
(va_CCons (va_code_VPolyAdd (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_opr128_xmm 4)) (va_CNil
())))))) (va_CNil ()))))))))))))) | {
"file_name": "obj/Vale.AES.X64.AESopt.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 37,
"end_line": 2237,
"start_col": 0,
"start_line": 2224
} | module Vale.AES.X64.AESopt
open FStar.Mul
open Vale.Def.Prop_s
open Vale.Def.Opaque_s
open Vale.Def.Words_s
open Vale.Def.Types_s
open FStar.Seq
open Vale.Arch.Types
open Vale.Arch.HeapImpl
open Vale.AES.AES_s
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.InsVector
open Vale.X64.InsAes
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.AES.AES_helpers
//open Vale.Poly1305.Math // For lemma_poly_bits64()
open Vale.AES.GCM_helpers
open Vale.AES.GCTR_s
open Vale.AES.GCTR
open Vale.Arch.TypesNative
open Vale.X64.CPU_Features_s
open Vale.Math.Poly2_s
open Vale.AES.GF128_s
open Vale.AES.GF128
open Vale.AES.GHash
open Vale.AES.X64.PolyOps
open Vale.AES.X64.AESopt2
open Vale.AES.X64.AESGCM_expected_code
open Vale.Transformers.Transform
open FStar.Mul
let add = Vale.Math.Poly2_s.add
#reset-options "--z3rlimit 30"
//-- finish_aes_encrypt_le
val finish_aes_encrypt_le : alg:algorithm -> input_LE:quad32 -> key:(seq nat32)
-> Lemma
(requires (Vale.AES.AES_s.is_aes_key_LE alg key))
(ensures (Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg
input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)))
let finish_aes_encrypt_le alg input_LE key =
Vale.AES.AES_s.aes_encrypt_LE_reveal ();
Vale.AES.AES_s.eval_cipher_reveal ();
()
//--
//-- Load_two_lsb
[@ "opaque_to_smt"]
let va_code_Load_two_lsb dst =
(va_Block (va_CCons (va_code_ZeroXmm dst) (va_CCons (va_code_PinsrqImm dst 2 0
(va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
[@ "opaque_to_smt"]
let va_codegen_success_Load_two_lsb dst =
(va_pbool_and (va_codegen_success_ZeroXmm dst) (va_pbool_and (va_codegen_success_PinsrqImm dst 2
0 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ())))
[@"opaque_to_smt"]
let va_lemma_Load_two_lsb va_b0 va_s0 dst =
va_reveal_opaque (`%va_code_Load_two_lsb) (va_code_Load_two_lsb dst);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s3, va_fc3) = va_lemma_ZeroXmm (va_hd va_b1) va_s0 dst in
let va_b3 = va_tl va_b1 in
Vale.Arch.Types.lemma_insert_nat64_nat32s (va_eval_xmm va_s3 dst) 2 0;
assert (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 2 0) == 2);
let (va_s6, va_fc6) = va_lemma_PinsrqImm (va_hd va_b3) va_s3 dst 2 0 (va_op_reg_opr64_reg64 rR11)
in
let va_b6 = va_tl va_b3 in
let (va_sM, va_f6) = va_lemma_empty_total va_s6 va_b6 in
let va_f3 = va_lemma_merge_total va_b3 va_s3 va_fc6 va_s6 va_f6 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc3 va_s3 va_f3 va_sM in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Load_two_lsb dst va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_two_lsb (va_code_Load_two_lsb dst) va_s0 dst in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Load_0xc2_msb
val va_code_Load_0xc2_msb : dst:va_operand_xmm -> Tot va_code
[@ "opaque_to_smt"]
let va_code_Load_0xc2_msb dst =
(va_Block (va_CCons (va_code_ZeroXmm dst) (va_CCons (va_code_PinsrqImm dst 13979173243358019584 1
(va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
val va_codegen_success_Load_0xc2_msb : dst:va_operand_xmm -> Tot va_pbool
[@ "opaque_to_smt"]
let va_codegen_success_Load_0xc2_msb dst =
(va_pbool_and (va_codegen_success_ZeroXmm dst) (va_pbool_and (va_codegen_success_PinsrqImm dst
13979173243358019584 1 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ())))
val va_lemma_Load_0xc2_msb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load_0xc2_msb dst) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 3254779904 /\
va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))))
[@"opaque_to_smt"]
let va_lemma_Load_0xc2_msb va_b0 va_s0 dst =
va_reveal_opaque (`%va_code_Load_0xc2_msb) (va_code_Load_0xc2_msb dst);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s3, va_fc3) = va_lemma_ZeroXmm (va_hd va_b1) va_s0 dst in
let va_b3 = va_tl va_b1 in
assert (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 0
3254779904) == 13979173243358019584);
Vale.Arch.Types.lemma_insert_nat64_nat32s (va_eval_xmm va_s3 dst) 0 3254779904;
let (va_s6, va_fc6) = va_lemma_PinsrqImm (va_hd va_b3) va_s3 dst 13979173243358019584 1
(va_op_reg_opr64_reg64 rR11) in
let va_b6 = va_tl va_b3 in
let (va_sM, va_f6) = va_lemma_empty_total va_s6 va_b6 in
let va_f3 = va_lemma_merge_total va_b3 va_s3 va_fc6 va_s6 va_f6 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc3 va_s3 va_f3 va_sM in
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Load_0xc2_msb (dst:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_dst:va_value_xmm)
(va_x_r11:nat64) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_reg64
rR11 va_x_r11 (va_upd_operand_xmm dst va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM
dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 3254779904 ==> va_k va_sM (())))
val va_wpProof_Load_0xc2_msb : dst:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit ->
Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Load_0xc2_msb dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load_0xc2_msb dst) ([va_Mod_flags;
va_Mod_reg64 rR11; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Load_0xc2_msb dst va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_0xc2_msb (va_code_Load_0xc2_msb dst) va_s0 dst in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Load_0xc2_msb (dst:va_operand_xmm) : (va_quickCode unit (va_code_Load_0xc2_msb dst)) =
(va_QProc (va_code_Load_0xc2_msb dst) ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst])
(va_wp_Load_0xc2_msb dst) (va_wpProof_Load_0xc2_msb dst))
//--
//-- Load_one_lsb
[@ "opaque_to_smt"]
let va_code_Load_one_lsb dst =
(va_Block (va_CCons (va_code_ZeroXmm dst) (va_CCons (va_code_PinsrqImm dst 1 0
(va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
[@ "opaque_to_smt"]
let va_codegen_success_Load_one_lsb dst =
(va_pbool_and (va_codegen_success_ZeroXmm dst) (va_pbool_and (va_codegen_success_PinsrqImm dst 1
0 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ())))
[@"opaque_to_smt"]
let va_lemma_Load_one_lsb va_b0 va_s0 dst =
va_reveal_opaque (`%va_code_Load_one_lsb) (va_code_Load_one_lsb dst);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s3, va_fc3) = va_lemma_ZeroXmm (va_hd va_b1) va_s0 dst in
let va_b3 = va_tl va_b1 in
Vale.Arch.Types.lemma_insert_nat64_nat32s (va_eval_xmm va_s3 dst) 1 0;
assert (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 1 0) == 1);
let (va_s6, va_fc6) = va_lemma_PinsrqImm (va_hd va_b3) va_s3 dst 1 0 (va_op_reg_opr64_reg64 rR11)
in
let va_b6 = va_tl va_b3 in
let (va_sM, va_f6) = va_lemma_empty_total va_s6 va_b6 in
let va_f3 = va_lemma_merge_total va_b3 va_s3 va_fc6 va_s6 va_f6 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc3 va_s3 va_f3 va_sM in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Load_one_lsb dst va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_one_lsb (va_code_Load_one_lsb dst) va_s0 dst in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Handle_ctr32
val va_code_Handle_ctr32 : va_dummy:unit -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Handle_ctr32 () =
(va_Block (va_CCons (va_code_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR11))
(va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons
(va_code_Load_one_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10)
(va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_Load_two_lsb (va_op_xmm_xmm 5))
(va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CNil
()))))))))))))))))))))
val va_codegen_success_Handle_ctr32 : va_dummy:unit -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Handle_ctr32 () =
(va_pbool_and (va_codegen_success_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR11))
(va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm
0)) (va_pbool_and (va_codegen_success_Load_one_lsb (va_op_xmm_xmm 5)) (va_pbool_and
(va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5))
(va_pbool_and (va_codegen_success_Load_two_lsb (va_op_xmm_xmm 5)) (va_pbool_and
(va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5))
(va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm
5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10)
(va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm
11) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm
10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_pbool_and (va_codegen_success_VPaddd
(va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_pbool_and
(va_codegen_success_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0))
(va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm
15)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13)
(va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm
13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 14)
(va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm
1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_ttrue ())))))))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Handle_ctr32 (va_mods:va_mods_t) (ctr_BE:quad32) : (va_quickCode unit
(va_code_Handle_ctr32 ())) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 256 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR11)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 257 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 261 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load_one_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 262 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 263 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load_two_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 264 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 265 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 266 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 267 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 268 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 269 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 270 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 271 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 272 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 273 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 274 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 275 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 276 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QEmpty
(())))))))))))))))))))))
val va_lemma_Handle_ctr32 : va_b0:va_code -> va_s0:va_state -> ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Handle_ctr32 ()) va_s0 /\ va_get_ok va_s0 /\
(avx_enabled /\ sse_enabled /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32
ctr_BE)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM, va_get_xmm
14 va_sM, va_get_xmm 1 va_sM) == xor_reverse_inc32lite_6 2 1 ctr_BE (va_get_xmm 15 va_sM) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM
(va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM
(va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Handle_ctr32 va_b0 va_s0 ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm
11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR11; va_Mod_ok] in
let va_qc = va_qcode_Handle_ctr32 va_mods ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Handle_ctr32 ()) va_qc va_s0 (fun va_s0
va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 234 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 254 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM,
va_get_xmm 14 va_sM, va_get_xmm 1 va_sM) == xor_reverse_inc32lite_6 2 1 ctr_BE (va_get_xmm 15
va_sM))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Handle_ctr32 (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE) /\ (forall (va_x_r11:nat64) (va_x_xmm0:quad32)
(va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm10:quad32)
(va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14
(va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10
va_x_xmm10 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm
1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR11 va_x_r11 va_s0))))))))))) in va_get_ok
va_sM /\ (va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM,
va_get_xmm 14 va_sM, va_get_xmm 1 va_sM) == xor_reverse_inc32lite_6 2 1 ctr_BE (va_get_xmm 15
va_sM) ==> va_k va_sM (())))
val va_wpProof_Handle_ctr32 : ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Handle_ctr32 ctr_BE va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Handle_ctr32 ()) ([va_Mod_flags;
va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM,
va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Handle_ctr32 ctr_BE va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Handle_ctr32 (va_code_Handle_ctr32 ()) va_s0 ctr_BE in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM
(va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM
(va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR11]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Handle_ctr32 (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32 ())) =
(va_QProc (va_code_Handle_ctr32 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12;
va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1;
va_Mod_xmm 0; va_Mod_reg64 rR11]) (va_wp_Handle_ctr32 ctr_BE) (va_wpProof_Handle_ctr32 ctr_BE))
//--
//-- Loop6x_ctr_update
val va_code_Loop6x_ctr_update : alg:algorithm -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_ctr_update alg =
(va_Block (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (va_CCons
(va_IfElse (va_cmp_ge (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (va_Block (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret) (va_CCons (va_code_Handle_ctr32 ()) (va_CCons (va_code_Sub64
(va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_CNil ()))))) (va_Block (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)
(va_op_xmm_xmm 14)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10)
(va_op_opr128_xmm 15)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11)
(va_op_opr128_xmm 15)) (va_CNil ()))))))) (va_CNil ()))))
val va_codegen_success_Loop6x_ctr_update : alg:algorithm -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_ctr_update alg =
(va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6))
(va_pbool_and (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0)
(va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rR9) (0 - 32) Secret) (va_pbool_and
(va_codegen_success_Handle_ctr32 ()) (va_pbool_and (va_codegen_success_Sub64
(va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_pbool_and
(va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3)
(va_op_reg_opr64_reg64 rR9) (0 - 32) Secret) (va_pbool_and (va_codegen_success_VPaddd
(va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 14)) (va_pbool_and (va_codegen_success_VPxor
(va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_codegen_success_VPxor
(va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)))))))) (va_ttrue ())))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_ctr_update (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (key_words:(seq
nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) :
(va_quickCode unit (va_code_Loop6x_ctr_update alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_QBind va_range1
"***** PRECONDITION NOT MET AT line 339 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (fun (va_s:va_state) _ ->
va_QBind va_range1
"***** PRECONDITION NOT MET AT line 340 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_qIf va_mods (Cmp_ge (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (qblock va_mods (fun
(va_s:va_state) -> va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 341 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret hkeys_b 0) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 342 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Handle_ctr32 ctr_BE) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 343 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_QEmpty (())))))) (qblock
va_mods (fun (va_s:va_state) -> va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 345 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret hkeys_b 0) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 346 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 14)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 347 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_QBind
va_range1
"***** PRECONDITION NOT MET AT line 348 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg36:Prims.nat) = va_get_reg64 rRbx va_old_s in let
(va_arg35:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg34:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let
(va_arg33:Vale.Def.Types_s.quad32) = ctr_BE in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 349 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_msb_in_bounds va_arg33 va_arg34 va_arg35 va_arg36)
(va_QEmpty (()))))))))) (fun (va_s:va_state) va_g -> va_QEmpty (())))))
val va_lemma_Loop6x_ctr_update : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 ->
key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 ->
ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_ctr_update alg) va_s0 /\ va_get_ok va_s0 /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ aes_reqs_offset alg key_words
round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout
va_s0) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216
/\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE
0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus`
256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_get_xmm 1 va_sM ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64
rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == xor_reverse_inc32lite_6 3 0 ctr_BE (va_get_xmm 15
va_sM) /\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0
va_sM)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13
va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9
va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1
va_sM (va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64 rR11 va_sM
(va_update_reg64 rRbx va_sM (va_update_ok va_sM va_s0))))))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_ctr_update va_b0 va_s0 alg h_LE key_words round_keys keys_b hkeys_b ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm
11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1;
va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok] in
let va_qc = va_qcode_Loop6x_ctr_update va_mods alg h_LE key_words round_keys keys_b hkeys_b
ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_ctr_update alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 279 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in label va_range1
"***** POSTCONDITION NOT MET AT line 330 column 57 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE
6)) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 331 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 332 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite
ctr_BE 6) `op_Modulus` 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 334 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == xor_reverse_inc32lite_6 3 0 ctr_BE (va_get_xmm 15 va_sM)) /\
label va_range1
"***** POSTCONDITION NOT MET AT line 335 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_sM))))
in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm
0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_ctr_update (alg:algorithm) (h_LE:quad32) (key_words:(seq nat32)) (round_keys:(seq
quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ aes_reqs_offset alg key_words
round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout
va_s0) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216
/\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE
0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus`
256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h) /\ (forall (va_x_rbx:nat64) (va_x_r11:nat64)
(va_x_xmm3:quad32) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32)
(va_x_xmm6:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32)
(va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm
12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9
(va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1
(va_upd_xmm 0 va_x_xmm0 (va_upd_xmm 3 va_x_xmm3 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx
va_x_rbx va_s0)))))))))))))) in va_get_ok va_sM /\ (let (h:Vale.Math.Poly2_s.poly) =
Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_get_xmm 1
va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <=
va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == xor_reverse_inc32lite_6 3 0 ctr_BE (va_get_xmm 15
va_sM) /\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0
va_sM)) ==> va_k va_sM (())))
val va_wpProof_Loop6x_ctr_update : alg:algorithm -> h_LE:quad32 -> key_words:(seq nat32) ->
round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE:quad32 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_ctr_update alg h_LE key_words round_keys keys_b
hkeys_b ctr_BE va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_ctr_update alg) ([va_Mod_flags;
va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9;
va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3;
va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_ctr_update (va_code_Loop6x_ctr_update alg) va_s0 alg h_LE
key_words round_keys keys_b hkeys_b ctr_BE in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM
(va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM
(va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx
va_sM (va_update_ok va_sM va_s0)))))))))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm
0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_ctr_update (alg:algorithm) (h_LE:quad32) (key_words:(seq nat32))
(round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) : (va_quickCode
unit (va_code_Loop6x_ctr_update alg)) =
(va_QProc (va_code_Loop6x_ctr_update alg) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5;
va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx])
(va_wp_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE)
(va_wpProof_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE))
//--
//-- Loop6x_plain
val va_code_Loop6x_plain : alg:algorithm -> rnd:nat -> rndkey:va_operand_xmm -> Tot va_code
[@ "opaque_to_smt"]
let va_code_Loop6x_plain alg rnd rndkey =
(va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) rndkey
(va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 1) - 128) Secret) (va_CCons
(va_code_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) rndkey) (va_CCons (va_code_VAESNI_enc
(va_op_xmm_xmm 10) (va_op_xmm_xmm 10) rndkey) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) rndkey) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12)
rndkey) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) rndkey) (va_CCons
(va_code_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) rndkey) (va_CNil ())))))))))
val va_codegen_success_Loop6x_plain : alg:algorithm -> rnd:nat -> rndkey:va_operand_xmm -> Tot
va_pbool
[@ "opaque_to_smt"]
let va_codegen_success_Loop6x_plain alg rnd rndkey =
(va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) rndkey
(va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 1) - 128) Secret) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) rndkey) (va_ttrue
()))))))))
val va_lemma_Loop6x_plain : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> rnd:nat ->
key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init:quad32_6 ->
rndkey:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_plain alg rnd rndkey) va_s0 /\ va_is_dst_xmm
rndkey va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ (rndkey == 1 \/ rndkey == 2 \/ rndkey == 15)
/\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 1 < FStar.Seq.Base.length
#quad32 round_keys /\ (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm
12 va_s0, va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == rounds_opaque_6 init round_keys rnd)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys (rnd + 1) /\ va_state_eq
va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12
va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok
va_sM (va_update_operand_xmm rndkey va_sM va_s0)))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_plain va_b0 va_s0 alg rnd key_words round_keys keys_b init rndkey =
va_reveal_opaque (`%va_code_Loop6x_plain) (va_code_Loop6x_plain alg rnd rndkey);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s9, va_fc9) = va_lemma_Load128_buffer (va_hd va_b1) va_s0 (va_op_heaplet_mem_heaplet 0)
rndkey (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 1) - 128) Secret keys_b (rnd + 1)
in
let va_b9 = va_tl va_b1 in
let (va_s10, va_fc10) = va_lemma_VAESNI_enc (va_hd va_b9) va_s9 (va_op_xmm_xmm 9) (va_op_xmm_xmm
9) rndkey in
let va_b10 = va_tl va_b9 in
let (va_s11, va_fc11) = va_lemma_VAESNI_enc (va_hd va_b10) va_s10 (va_op_xmm_xmm 10)
(va_op_xmm_xmm 10) rndkey in
let va_b11 = va_tl va_b10 in
let (va_s12, va_fc12) = va_lemma_VAESNI_enc (va_hd va_b11) va_s11 (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) rndkey in
let va_b12 = va_tl va_b11 in
let (va_s13, va_fc13) = va_lemma_VAESNI_enc (va_hd va_b12) va_s12 (va_op_xmm_xmm 12)
(va_op_xmm_xmm 12) rndkey in
let va_b13 = va_tl va_b12 in
let (va_s14, va_fc14) = va_lemma_VAESNI_enc (va_hd va_b13) va_s13 (va_op_xmm_xmm 13)
(va_op_xmm_xmm 13) rndkey in
let va_b14 = va_tl va_b13 in
let (va_s15, va_fc15) = va_lemma_VAESNI_enc (va_hd va_b14) va_s14 (va_op_xmm_xmm 14)
(va_op_xmm_xmm 14) rndkey in
let va_b15 = va_tl va_b14 in
Vale.AES.AES_s.eval_rounds_reveal ();
Vale.AES.AES_helpers.commute_sub_bytes_shift_rows_forall ();
let (va_sM, va_f15) = va_lemma_empty_total va_s15 va_b15 in
let va_f14 = va_lemma_merge_total va_b14 va_s14 va_fc15 va_s15 va_f15 va_sM in
let va_f13 = va_lemma_merge_total va_b13 va_s13 va_fc14 va_s14 va_f14 va_sM in
let va_f12 = va_lemma_merge_total va_b12 va_s12 va_fc13 va_s13 va_f13 va_sM in
let va_f11 = va_lemma_merge_total va_b11 va_s11 va_fc12 va_s12 va_f12 va_sM in
let va_f10 = va_lemma_merge_total va_b10 va_s10 va_fc11 va_s11 va_f11 va_sM in
let va_f9 = va_lemma_merge_total va_b9 va_s9 va_fc10 va_s10 va_f10 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc9 va_s9 va_f9 va_sM in
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_plain (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32))
(keys_b:buffer128) (init:quad32_6) (rndkey:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm rndkey va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ (rndkey == 1 \/ rndkey == 2 \/
rndkey == 15) /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 1 < FStar.Seq.Base.length
#quad32 round_keys /\ (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm
12 va_s0, va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == rounds_opaque_6 init round_keys rnd) /\
(forall (va_x_rndkey:va_value_xmm) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32)
(va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm
12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9
(va_upd_operand_xmm rndkey va_x_rndkey va_s0))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM,
va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM, va_get_xmm
14 va_sM) == rounds_opaque_6 init round_keys (rnd + 1) ==> va_k va_sM (())))
val va_wpProof_Loop6x_plain : alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq
quad32) -> keys_b:buffer128 -> init:quad32_6 -> rndkey:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_plain alg rnd key_words round_keys keys_b init
rndkey va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_plain alg rnd rndkey)
([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10;
va_Mod_xmm 9; va_mod_xmm rndkey]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_plain alg rnd key_words round_keys keys_b init rndkey va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_plain (va_code_Loop6x_plain alg rnd rndkey) va_s0 alg rnd
key_words round_keys keys_b init rndkey in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM
(va_update_ok va_sM (va_update_operand_xmm rndkey va_sM va_s0))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_mod_xmm rndkey]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_plain (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq
quad32)) (keys_b:buffer128) (init:quad32_6) (rndkey:va_operand_xmm) : (va_quickCode unit
(va_code_Loop6x_plain alg rnd rndkey)) =
(va_QProc (va_code_Loop6x_plain alg rnd rndkey) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_mod_xmm rndkey])
(va_wp_Loop6x_plain alg rnd key_words round_keys keys_b init rndkey) (va_wpProof_Loop6x_plain
alg rnd key_words round_keys keys_b init rndkey))
//--
//-- Loop6x_preamble
val va_code_Loop6x_preamble : alg:algorithm -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_preamble alg =
(va_Block (va_CCons (va_code_Loop6x_ctr_update alg) (va_CCons (va_code_Store128_buffer
(va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 128 Secret)
(va_CCons (va_code_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 15)) (va_CNil ())))))))
val va_codegen_success_Loop6x_preamble : alg:algorithm -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_preamble alg =
(va_pbool_and (va_codegen_success_Loop6x_ctr_update alg) (va_pbool_and
(va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_xmm_xmm 1) 128 Secret) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 12)
(va_op_xmm_xmm 12) (va_op_opr128_xmm 15)) (va_pbool_and (va_codegen_success_VPxor
(va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 15)) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 15))
(va_ttrue ()))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_preamble (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (iv_b:buffer128)
(scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128)
(hkeys_b:buffer128) (ctr_BE:quad32) : (va_quickCode unit (va_code_Loop6x_preamble alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_QBind va_range1
"***** PRECONDITION NOT MET AT line 477 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE) (fun
(va_s:va_state) _ -> let (va_arg43:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg42:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 479 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg42 va_arg43) (let
(va_arg41:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let
(va_arg40:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 480 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg40 va_arg41) (let
(va_arg39:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let
(va_arg38:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 481 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg38 va_arg39) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 498 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_xmm_xmm 1) 128 Secret scratch_b 8) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 499 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg37:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg36:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 499 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg36 va_arg37) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 500 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg35:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg34:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 500 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg34 va_arg35) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 501 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg33:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg32:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 501 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg32 va_arg33) (va_QEmpty
(()))))))))))))))
val va_lemma_Loop6x_preamble : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 ->
iv_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) ->
keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_preamble alg) va_s0 /\ va_get_ok va_s0 /\ (let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ Vale.X64.Decls.validDstAddrs128
(va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0)
Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 ==
FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx
va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9
va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in Vale.X64.Decls.modifies_buffer_specific128
scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 8 8 /\ (let init =
make_six_of #Vale.Def.Types_s.quad32 (fun (n:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor
(Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE n)) (va_get_xmm 15
va_sM)) in (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys 0 /\
Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64
rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_s0)))
/\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 14
va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10
va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2
va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64
rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM (va_update_mem va_sM
va_s0))))))))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_preamble va_b0 va_s0 alg h_LE iv_b scratch_b key_words round_keys keys_b
hkeys_b ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5;
va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx;
va_Mod_ok; va_Mod_mem] in
let va_qc = va_qcode_Loop6x_preamble va_mods alg h_LE iv_b scratch_b key_words round_keys keys_b
hkeys_b ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_preamble alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 402 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in label va_range1
"***** POSTCONDITION NOT MET AT line 459 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 8 8) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 464 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(let init = make_six_of #Vale.Def.Types_s.quad32 (fun (n:(va_int_range 0 5)) ->
Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite
ctr_BE n)) (va_get_xmm 15 va_sM)) in label va_range1
"***** POSTCONDITION NOT MET AT line 466 column 102 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys 0) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 469 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 472 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 473 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite
ctr_BE 6) `op_Modulus` 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 475 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_s0)))))
in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm
12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2;
va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok;
va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_preamble (alg:algorithm) (h_LE:quad32) (iv_b:buffer128) (scratch_b:buffer128)
(key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128)
(ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ Vale.X64.Decls.validDstAddrs128
(va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0)
Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 ==
FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx
va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9
va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h) /\ (forall (va_x_mem:vale_heap) (va_x_rbx:nat64)
(va_x_r11:nat64) (va_x_xmm3:quad32) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32)
(va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32)
(va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32)
(va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_mem_heaplet 3 va_x_heap3 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13
(va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9
va_x_xmm9 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1
va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_xmm 3 va_x_xmm3 (va_upd_reg64 rR11 va_x_r11
(va_upd_reg64 rRbx va_x_rbx (va_upd_mem va_x_mem va_s0)))))))))))))))) in va_get_ok va_sM /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in Vale.X64.Decls.modifies_buffer_specific128
scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 8 8 /\ (let init =
make_six_of #Vale.Def.Types_s.quad32 (fun (n:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor
(Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE n)) (va_get_xmm 15
va_sM)) in (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys 0 /\
Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64
rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_s0)))
==> va_k va_sM (())))
val va_wpProof_Loop6x_preamble : alg:algorithm -> h_LE:quad32 -> iv_b:buffer128 ->
scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 ->
hkeys_b:buffer128 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_preamble alg h_LE iv_b scratch_b key_words
round_keys keys_b hkeys_b ctr_BE va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_preamble alg) ([va_Mod_flags;
va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm
10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0,
va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_preamble alg h_LE iv_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE
va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_preamble (va_code_Loop6x_preamble alg) va_s0 alg h_LE iv_b
scratch_b key_words round_keys keys_b hkeys_b ctr_BE in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 14
va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10
va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2
va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64
rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM (va_update_mem va_sM
va_s0)))))))))))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm
12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2;
va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_mem])
va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_preamble (alg:algorithm) (h_LE:quad32) (iv_b:buffer128) (scratch_b:buffer128)
(key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128)
(ctr_BE:quad32) : (va_quickCode unit (va_code_Loop6x_preamble alg)) =
(va_QProc (va_code_Loop6x_preamble alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14;
va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11;
va_Mod_reg64 rRbx; va_Mod_mem]) (va_wp_Loop6x_preamble alg h_LE iv_b scratch_b key_words
round_keys keys_b hkeys_b ctr_BE) (va_wpProof_Loop6x_preamble alg h_LE iv_b scratch_b key_words
round_keys keys_b hkeys_b ctr_BE))
//--
//-- Loop6x_reverse128
val va_code_Loop6x_reverse128 : in0_offset:nat -> stack_offset:nat -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_reverse128 in0_offset stack_offset =
(va_Block (va_CCons (va_code_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rR13) (va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16 + 8)
Secret true) (va_CCons (va_code_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rR12) (va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16) Secret
false) (va_CCons (va_code_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR13) (stack_offset `op_Multiply` 16)
Secret false) (va_CCons (va_code_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR12) (stack_offset `op_Multiply` 16 + 8)
Secret true) (va_CNil ()))))))
val va_codegen_success_Loop6x_reverse128 : in0_offset:nat -> stack_offset:nat -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_reverse128 in0_offset stack_offset =
(va_pbool_and (va_codegen_success_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rR13) (va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16 + 8)
Secret true) (va_pbool_and (va_codegen_success_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rR12) (va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16) Secret
false) (va_pbool_and (va_codegen_success_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR13) (stack_offset `op_Multiply` 16)
Secret false) (va_pbool_and (va_codegen_success_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR12) (stack_offset `op_Multiply` 16 + 8)
Secret true) (va_ttrue ())))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_reverse128 (va_mods:va_mods_t) (in0_offset:nat) (stack_offset:nat) (start:nat)
(in0_b:buffer128) (scratch_b:buffer128) : (va_quickCode unit (va_code_Loop6x_reverse128
in0_offset stack_offset)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 527 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rR13)
(va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16 + 8) Secret true in0_b (start +
in0_offset)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 528 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rR12)
(va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16) Secret false in0_b (start +
in0_offset)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 529 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR13) (stack_offset `op_Multiply` 16) Secret false scratch_b
stack_offset) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 530 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR12) (stack_offset `op_Multiply` 16 + 8) Secret true scratch_b
stack_offset) (fun (va_s:va_state) _ -> let (va_arg10:Vale.Def.Types_s.quad32) =
Vale.X64.Decls.buffer128_read scratch_b stack_offset (va_get_mem_heaplet 3 va_s) in let
(va_arg9:Vale.Def.Types_s.quad32) = Vale.X64.Decls.buffer128_read scratch_b stack_offset
(va_get_mem_heaplet 3 va_old_s) in let (va_arg8:Vale.Def.Types_s.quad32) =
Vale.X64.Decls.buffer128_read in0_b (start + in0_offset) (va_get_mem_heaplet 6 va_old_s) in
va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 531 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.Arch.Types.lemma_reverse_bytes_quad32_64 va_arg8 va_arg9 va_arg10)
(va_QEmpty (()))))))))
val va_lemma_Loop6x_reverse128 : va_b0:va_code -> va_s0:va_state -> in0_offset:nat ->
stack_offset:nat -> start:nat -> in0_b:buffer128 -> scratch_b:buffer128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_reverse128 in0_offset stack_offset) va_s0 /\
va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128
(va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b start (in0_offset + 1)
(va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3
va_s0) (va_get_reg64 rRbp va_s0) scratch_b (stack_offset + 1) (va_get_mem_layout va_s0)
Secret)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) stack_offset stack_offset /\ Vale.X64.Decls.buffer128_read
scratch_b stack_offset (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32
(Vale.X64.Decls.buffer128_read in0_b (start + in0_offset) (va_get_mem_heaplet 6 va_s0))) /\
va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64
rR12 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_reverse128 va_b0 va_s0 in0_offset stack_offset start in0_b scratch_b =
let (va_mods:va_mods_t) = [va_Mod_mem_heaplet 3; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_ok;
va_Mod_mem] in
let va_qc = va_qcode_Loop6x_reverse128 va_mods in0_offset stack_offset start in0_b scratch_b in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_reverse128 in0_offset
stack_offset) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 504 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (label va_range1
"***** POSTCONDITION NOT MET AT line 523 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) stack_offset stack_offset) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 525 column 88 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b stack_offset (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (start + in0_offset)
(va_get_mem_heaplet 6 va_s0))))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_ok;
va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_reverse128 (in0_offset:nat) (stack_offset:nat) (start:nat) (in0_b:buffer128)
(scratch_b:buffer128) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128
(va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b start (in0_offset + 1)
(va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3
va_s0) (va_get_reg64 rRbp va_s0) scratch_b (stack_offset + 1) (va_get_mem_layout va_s0) Secret)
/\ (forall (va_x_mem:vale_heap) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_heap3:vale_heap) . let
va_sM = va_upd_mem_heaplet 3 va_x_heap3 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12
(va_upd_mem va_x_mem va_s0))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128
scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) stack_offset stack_offset
/\ Vale.X64.Decls.buffer128_read scratch_b stack_offset (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (start + in0_offset)
(va_get_mem_heaplet 6 va_s0))) ==> va_k va_sM (())))
val va_wpProof_Loop6x_reverse128 : in0_offset:nat -> stack_offset:nat -> start:nat ->
in0_b:buffer128 -> scratch_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_reverse128 in0_offset stack_offset start in0_b
scratch_b va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_reverse128 in0_offset
stack_offset) ([va_Mod_mem_heaplet 3; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_mem]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_reverse128 in0_offset stack_offset start in0_b scratch_b va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_reverse128 (va_code_Loop6x_reverse128 in0_offset
stack_offset) va_s0 in0_offset stack_offset start in0_b scratch_b in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR13 va_sM
(va_update_reg64 rR12 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))));
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_mem])
va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_reverse128 (in0_offset:nat) (stack_offset:nat) (start:nat) (in0_b:buffer128)
(scratch_b:buffer128) : (va_quickCode unit (va_code_Loop6x_reverse128 in0_offset stack_offset)) =
(va_QProc (va_code_Loop6x_reverse128 in0_offset stack_offset) ([va_Mod_mem_heaplet 3;
va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_mem]) (va_wp_Loop6x_reverse128 in0_offset
stack_offset start in0_b scratch_b) (va_wpProof_Loop6x_reverse128 in0_offset stack_offset start
in0_b scratch_b))
//--
//-- Loop6x_round9
val va_code_Loop6x_round9 : alg:algorithm -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_round9 alg =
(va_Block (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64
rRbp) (va_op_xmm_xmm 7) 16 Secret) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor
(va_op_xmm_xmm 2) (va_op_xmm_xmm 1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg64_reg64 rRdi) 0 Secret)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_CCons
(va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 1)
(va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret))
(va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm
1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret))
(va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 7) (va_op_xmm_xmm
1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret))
(va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm
1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret))
(va_CNil ())))))))))))))))
val va_codegen_success_Loop6x_round9 : alg:algorithm -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_round9 alg =
(va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 7) 16 Secret) (va_pbool_and
(va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 2)
(va_op_xmm_xmm 1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0
Secret)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_pbool_and
(va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 5)
(va_op_xmm_xmm 1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32
Secret)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_pbool_and
(va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 7)
(va_op_xmm_xmm 1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64
Secret)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (va_ttrue ()))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_round9 (va_mods:va_mods_t) (alg:algorithm) (count:nat) (in_b:buffer128)
(scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) :
(va_quickCode unit (va_code_Loop6x_round9 alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 567 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_xmm_xmm 7) 16 Secret scratch_b 1) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 568 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret in_b
(count `op_Multiply` 6 + 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 568 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 2) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 569 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret in_b
(count `op_Multiply` 6 + 1)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 569 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 570 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret in_b
(count `op_Multiply` 6 + 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 570 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 571 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret in_b
(count `op_Multiply` 6 + 3)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 571 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 572 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret in_b
(count `op_Multiply` 6 + 4)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 572 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 7) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 573 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret in_b
(count `op_Multiply` 6 + 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 573 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (va_QEmpty
(()))))))))))))))))
val va_lemma_Loop6x_round9 : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat ->
in_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) ->
keys_b:buffer128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_round9 alg) va_s0 /\ va_get_ok va_s0 /\
(sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0)
(va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\
Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0)
scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b
(va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm
1 va_s0 == Vale.X64.Decls.buffer128_read keys_b (Vale.AES.AES_common_s.nr alg)
(va_get_mem_heaplet 0 va_s0))))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 1 1 /\ (va_get_xmm 2 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5
va_sM, va_get_xmm 6 va_sM, va_get_xmm 7 va_sM, va_get_xmm 3 va_sM) == make_six_of #quad32 (fun
(i:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor (FStar.Seq.Base.index
#Vale.Def.Types_s.quad32 round_keys (Vale.AES.AES_common_s.nr alg))
(Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_sM)))
/\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 7
va_s0) /\ va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_flags va_sM
(va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 3 va_sM
(va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_ok va_sM
(va_update_mem va_sM va_s0)))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_round9 va_b0 va_s0 alg count in_b scratch_b key_words round_keys keys_b =
let (va_mods:va_mods_t) = [va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_ok; va_Mod_mem] in
let va_qc = va_qcode_Loop6x_round9 va_mods alg count in_b scratch_b key_words round_keys keys_b in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_round9 alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 535 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (label va_range1
"***** POSTCONDITION NOT MET AT line 561 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 1 1) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 563 column 102 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 2 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5 va_sM, va_get_xmm 6 va_sM, va_get_xmm 7
va_sM, va_get_xmm 3 va_sM) == make_six_of #quad32 (fun (i:(va_int_range 0 5)) ->
Vale.Def.Types_s.quad32_xor (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys
(Vale.AES.AES_common_s.nr alg)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i)
(va_get_mem_heaplet 6 va_sM)))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 564 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 7
va_s0))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm
5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_ok; va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_round9 (alg:algorithm) (count:nat) (in_b:buffer128) (scratch_b:buffer128)
(key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6
va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0)
Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp
va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys
keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\
va_get_xmm 1 va_s0 == Vale.X64.Decls.buffer128_read keys_b (Vale.AES.AES_common_s.nr alg)
(va_get_mem_heaplet 0 va_s0)) /\ (forall (va_x_mem:vale_heap) (va_x_xmm0:quad32)
(va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32)
(va_x_xmm7:quad32) (va_x_efl:Vale.X64.Flags.t) (va_x_heap3:vale_heap) . let va_sM =
va_upd_mem_heaplet 3 va_x_heap3 (va_upd_flags va_x_efl (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6
va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1
va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_mem va_x_mem va_s0))))))))) in va_get_ok va_sM /\
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 1 1 /\ (va_get_xmm 2 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5
va_sM, va_get_xmm 6 va_sM, va_get_xmm 7 va_sM, va_get_xmm 3 va_sM) == make_six_of #quad32 (fun
(i:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor (FStar.Seq.Base.index
#Vale.Def.Types_s.quad32 round_keys (Vale.AES.AES_common_s.nr alg))
(Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_sM)))
/\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 7
va_s0) ==> va_k va_sM (())))
val va_wpProof_Loop6x_round9 : alg:algorithm -> count:nat -> in_b:buffer128 -> scratch_b:buffer128
-> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_round9 alg count in_b scratch_b key_words
round_keys keys_b va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_round9 alg)
([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 3;
va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_round9 alg count in_b scratch_b key_words round_keys keys_b va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_round9 (va_code_Loop6x_round9 alg) va_s0 alg count in_b
scratch_b key_words round_keys keys_b in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_flags va_sM (va_update_xmm 7
va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2
va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_ok va_sM (va_update_mem va_sM
va_s0))))))))))));
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm
5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_mem]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_round9 (alg:algorithm) (count:nat) (in_b:buffer128) (scratch_b:buffer128)
(key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) : (va_quickCode unit
(va_code_Loop6x_round9 alg)) =
(va_QProc (va_code_Loop6x_round9 alg) ([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7;
va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_mem]) (va_wp_Loop6x_round9 alg count in_b scratch_b key_words round_keys keys_b)
(va_wpProof_Loop6x_round9 alg count in_b scratch_b key_words round_keys keys_b))
//--
//-- load_one_msb
val va_code_load_one_msb : va_dummy:unit -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_load_one_msb () =
(va_Block (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 2)) (va_CCons (va_code_PinsrqImm
(va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
val va_codegen_success_load_one_msb : va_dummy:unit -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_load_one_msb () =
(va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 2)) (va_pbool_and
(va_codegen_success_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64
rR11)) (va_ttrue ())))
[@ "opaque_to_smt" va_qattr]
let va_qcode_load_one_msb (va_mods:va_mods_t) : (va_quickCode unit (va_code_load_one_msb ())) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1
"***** PRECONDITION NOT MET AT line 583 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_ZeroXmm (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> va_qAssert va_range1
"***** PRECONDITION NOT MET AT line 584 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 0 16777216) ==
72057594037927936) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 585 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (fun
(va_s:va_state) _ -> va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 586 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.Def.Types_s.insert_nat64_reveal ()) (va_QEmpty (())))))))
val va_lemma_load_one_msb : va_b0:va_code -> va_s0:va_state
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_load_one_msb ()) va_s0 /\ va_get_ok va_s0 /\
sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\
va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11 va_sM
(va_update_ok va_sM va_s0))))))
[@"opaque_to_smt"]
let va_lemma_load_one_msb va_b0 va_s0 =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok] in
let va_qc = va_qcode_load_one_msb va_mods in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_load_one_msb ()) va_qc va_s0 (fun va_s0
va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 576 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 581 column 46 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216)) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_load_one_msb (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_r11:nat64) (va_x_xmm2:quad32)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 2 va_x_xmm2
(va_upd_reg64 rR11 va_x_r11 va_s0)) in va_get_ok va_sM /\ va_get_xmm 2 va_sM ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 ==> va_k va_sM (())))
val va_wpProof_load_one_msb : va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_load_one_msb va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_load_one_msb ()) ([va_Mod_flags;
va_Mod_xmm 2; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_load_one_msb va_s0 va_k =
let (va_sM, va_f0) = va_lemma_load_one_msb (va_code_load_one_msb ()) va_s0 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11
va_sM (va_update_ok va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_load_one_msb () : (va_quickCode unit (va_code_load_one_msb ())) =
(va_QProc (va_code_load_one_msb ()) ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11])
va_wp_load_one_msb va_wpProof_load_one_msb)
//--
//-- Loop6x_final
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_final alg =
(va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 1)
(va_op_reg_opr64_reg64 rRbp) 128 Secret) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 9)
(va_op_xmm_xmm 9) (va_op_xmm_xmm 2)) (va_CCons (va_code_load_one_msb ()) (va_CCons
(va_code_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_CCons
(va_code_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR13) (7 `op_Multiply` 16) Secret false) (va_CCons (va_code_AddLea64
(va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_CCons
(va_code_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 5) (va_op_xmm_xmm 0) (va_op_xmm_xmm 2)) (va_CCons
(va_code_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR12) (7 `op_Multiply` 16 + 8) Secret true) (va_CCons (va_code_AddLea64
(va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64
rRcx) (0 - 128) Secret) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm
12) (va_op_xmm_xmm 6)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)
(va_op_xmm_xmm 2)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13)
(va_op_xmm_xmm 7)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 7) (va_op_xmm_xmm 6) (va_op_xmm_xmm
2)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3))
(va_CCons (va_code_VPaddd (va_op_xmm_xmm 3) (va_op_xmm_xmm 7) (va_op_xmm_xmm 2)) (va_CNil
()))))))))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_final alg =
(va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 1)
(va_op_reg_opr64_reg64 rRbp) 128 Secret) (va_pbool_and (va_codegen_success_VAESNI_enc_last
(va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 2)) (va_pbool_and
(va_codegen_success_load_one_msb ()) (va_pbool_and (va_codegen_success_VAESNI_enc_last
(va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and
(va_codegen_success_VPaddd (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_pbool_and
(va_codegen_success_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64
rRbp) (va_op_reg_opr64_reg64 rR13) (7 `op_Multiply` 16) Secret false) (va_pbool_and
(va_codegen_success_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi)
(va_const_opr64 96)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm
5) (va_op_xmm_xmm 0) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_Store64_buffer128
(va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR12) (7
`op_Multiply` 16 + 8) Secret true) (va_pbool_and (va_codegen_success_AddLea64
(va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_pbool_and
(va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15)
(va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_pbool_and
(va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 6))
(va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 6) (va_op_xmm_xmm 5) (va_op_xmm_xmm 2))
(va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13)
(va_op_xmm_xmm 7)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 7) (va_op_xmm_xmm 6)
(va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 14)
(va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm
3) (va_op_xmm_xmm 7) (va_op_xmm_xmm 2)) (va_ttrue ())))))))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_final (va_mods:va_mods_t) (alg:algorithm) (iv_b:buffer128)
(scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128)
(ctr_orig:quad32) (init:quad32_6) (ctrs:quad32_6) (plain:quad32_6) (inb:quad32) : (va_quickCode
unit (va_code_Loop6x_final alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 667 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.Arch.TypesNative.lemma_quad32_xor_commutes_forall ()) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 669 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 1) (va_op_reg_opr64_reg64
rRbp) 128 Secret scratch_b 8) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 671 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 2)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 672 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_load_one_msb ()) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 673 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 674 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 675 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR13) (7 `op_Multiply` 16) Secret false scratch_b 7) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 676 column 13 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96))
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 677 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 678 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 5) (va_op_xmm_xmm 0) (va_op_xmm_xmm 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 679 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR12) (7 `op_Multiply` 16 + 8) Secret true scratch_b 7) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 680 column 13 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_AddLea64 (va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96))
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 681 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15)
(va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret keys_b 0) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 683 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 6)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 684 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 6) (va_op_xmm_xmm 5) (va_op_xmm_xmm 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 685 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 7)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 686 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 7) (va_op_xmm_xmm 6) (va_op_xmm_xmm 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 687 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_QBind
va_range1
"***** PRECONDITION NOT MET AT line 688 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 3) (va_op_xmm_xmm 7) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _
-> let (va_arg117:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let
(va_arg116:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_s in let
(va_arg115:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_old_s in let
(va_arg114:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___1 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 init in let (va_arg113:Vale.Def.Types_s.quad32) =
__proj__Mktuple6__item___1 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let
(va_arg112:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___1 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 ctrs in let (va_arg111:Vale.AES.AES_common_s.algorithm) = alg in
va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 690 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg111 va_arg112 va_arg113 va_arg114
va_arg115 va_arg116 va_arg117) (let (va_arg110:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg109:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let
(va_arg108:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_old_s in let
(va_arg107:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___2 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 init in let (va_arg106:Vale.Def.Types_s.quad32) =
__proj__Mktuple6__item___2 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let
(va_arg105:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___2 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 ctrs in let (va_arg104:Vale.AES.AES_common_s.algorithm) = alg in
va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 691 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg104 va_arg105 va_arg106 va_arg107
va_arg108 va_arg109 va_arg110) (let (va_arg103:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg102:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let
(va_arg101:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_old_s in let
(va_arg100:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___3 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 init in let (va_arg99:Vale.Def.Types_s.quad32) =
__proj__Mktuple6__item___3 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let
(va_arg98:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___3 #quad32 #quad32 #quad32 #quad32
#quad32 #quad32 ctrs in let (va_arg97:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE
va_range1
"***** PRECONDITION NOT MET AT line 692 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg97 va_arg98 va_arg99 va_arg100
va_arg101 va_arg102 va_arg103) (let (va_arg96:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg95:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let
(va_arg94:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_old_s in let
(va_arg93:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___4 #quad32 #quad32 #quad32 #quad32
#quad32 #quad32 init in let (va_arg92:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___4
#quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let (va_arg91:Vale.Def.Types_s.quad32)
= __proj__Mktuple6__item___4 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs in let
(va_arg90:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 693 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg90 va_arg91 va_arg92 va_arg93
va_arg94 va_arg95 va_arg96) (let (va_arg89:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg88:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let
(va_arg87:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_old_s in let
(va_arg86:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___5 #quad32 #quad32 #quad32 #quad32
#quad32 #quad32 init in let (va_arg85:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___5
#quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let (va_arg84:Vale.Def.Types_s.quad32)
= __proj__Mktuple6__item___5 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs in let
(va_arg83:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 694 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg83 va_arg84 va_arg85 va_arg86
va_arg87 va_arg88 va_arg89) (let (va_arg82:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg81:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let
(va_arg80:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_old_s in let
(va_arg79:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___6 #quad32 #quad32 #quad32 #quad32
#quad32 #quad32 init in let (va_arg78:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___6
#quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let (va_arg77:Vale.Def.Types_s.quad32)
= __proj__Mktuple6__item___6 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs in let
(va_arg76:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 695 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg76 va_arg77 va_arg78 va_arg79
va_arg80 va_arg81 va_arg82) (va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 696 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___1 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___1 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___1 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 697 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___2 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___2 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___2 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 698 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___3 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___3 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___3 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 699 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___4 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___4 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___4 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 700 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___5 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___5 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___5 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 701 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___6 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___6 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___6 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(let (va_arg75:Vale.Def.Types_s.quad32) = Vale.X64.Decls.buffer128_read scratch_b 7
(va_get_mem_heaplet 3 va_s) in let (va_arg74:Vale.Def.Types_s.quad32) =
Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_old_s) in let
(va_arg73:Vale.Def.Types_s.quad32) = inb in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 703 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.Arch.Types.lemma_reverse_bytes_quad32_64 va_arg73 va_arg74 va_arg75) (let
(va_arg72:Vale.Def.Types_s.quad32) = va_get_xmm 0 va_s in let
(va_arg71:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg70:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 705 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg70 va_arg71 va_arg72 1) (let
(va_arg69:Vale.Def.Types_s.quad32) = va_get_xmm 5 va_s in let
(va_arg68:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg67:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 706 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg67 va_arg68 va_arg69 2) (let
(va_arg66:Vale.Def.Types_s.quad32) = va_get_xmm 6 va_s in let
(va_arg65:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg64:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 707 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg64 va_arg65 va_arg66 3) (let
(va_arg63:Vale.Def.Types_s.quad32) = va_get_xmm 7 va_s in let
(va_arg62:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg61:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 708 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg61 va_arg62 va_arg63 4) (let
(va_arg60:Vale.Def.Types_s.quad32) = va_get_xmm 3 va_s in let
(va_arg59:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg58:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 709 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg58 va_arg59 va_arg60 5) (va_QEmpty
(()))))))))))))))))))))))))))))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_final va_b0 va_s0 alg iv_b scratch_b key_words round_keys keys_b ctr_orig init
ctrs plain inb =
let (va_mods:va_mods_t) = [va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14;
va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 7;
va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi;
va_Mod_ok; va_Mod_mem] in
let va_qc = va_qcode_Loop6x_final va_mods alg iv_b scratch_b key_words round_keys keys_b ctr_orig
init ctrs plain inb in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_final alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 589 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (label va_range1
"***** POSTCONDITION NOT MET AT line 649 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 7 7) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 652 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 inb) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 654 column 111 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == map2_six_of #quad32 #quad32 #quad32 plain ctrs (fun
(p:quad32) (c:quad32) -> Vale.Def.Types_s.quad32_xor p (Vale.AES.AES_s.aes_encrypt_LE alg
key_words c))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 655 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 657 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 658 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 660 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label
va_range1
"***** POSTCONDITION NOT MET AT line 662 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 1 va_sM == Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_s0))
/\ label va_range1
"***** POSTCONDITION NOT MET AT line 663 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(let ctr = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in label
va_range1
"***** POSTCONDITION NOT MET AT line 665 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(ctr + 6 < 256 ==> (va_get_xmm 1 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5 va_sM, va_get_xmm 6
va_sM, va_get_xmm 7 va_sM, va_get_xmm 3 va_sM) == xor_reverse_inc32lite_6 0 0 ctr_orig
(va_get_xmm 15 va_sM))))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm
13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 7; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR13;
va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok;
va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Loop6x_final alg iv_b scratch_b key_words round_keys keys_b ctr_orig init ctrs plain
inb va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_final (va_code_Loop6x_final alg) va_s0 alg iv_b scratch_b
key_words round_keys keys_b ctr_orig init ctrs plain inb in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_flags va_sM (va_update_xmm 15
va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11
va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6
va_sM (va_update_xmm 5 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1
va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM
(va_update_reg64 rR11 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM
(va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))));
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm
13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 7; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR13;
va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM
va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Loop6x_save_output
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_save_output () =
(va_Block (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64
rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret) (va_CCons (va_code_VPxor (va_op_xmm_xmm 9)
(va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_CCons (va_code_Store128_buffer
(va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret)
(va_CCons (va_code_Mov128 (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons
(va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 11) (0 - 64) Secret) (va_CCons (va_code_Mov128 (va_op_xmm_xmm 11) (va_op_xmm_xmm
5)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64
rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret) (va_CCons (va_code_Mov128 (va_op_xmm_xmm 12)
(va_op_xmm_xmm 6)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret) (va_CCons (va_code_Mov128
(va_op_xmm_xmm 13) (va_op_xmm_xmm 7)) (va_CCons (va_code_Store128_buffer
(va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret)
(va_CCons (va_code_Mov128 (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_CNil ()))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_save_output () =
(va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15))
(va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret) (va_pbool_and
(va_codegen_success_Mov128 (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and
(va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 11) (0 - 64) Secret) (va_pbool_and (va_codegen_success_Mov128 (va_op_xmm_xmm 11)
(va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet
6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret) (va_pbool_and
(va_codegen_success_Mov128 (va_op_xmm_xmm 12) (va_op_xmm_xmm 6)) (va_pbool_and
(va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 13) (0 - 32) Secret) (va_pbool_and (va_codegen_success_Mov128 (va_op_xmm_xmm 13)
(va_op_xmm_xmm 7)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet
6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret) (va_pbool_and
(va_codegen_success_Mov128 (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_ttrue ())))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_save_output (va_mods:va_mods_t) (count:nat) (out_b:buffer128) : (va_quickCode
unit (va_code_Loop6x_save_output ())) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 744 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 9) (0 - 96) Secret out_b (count `op_Multiply` 6 + 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 745 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 746 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 10) (0 - 80) Secret out_b (count `op_Multiply` 6 + 1)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 747 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mov128 (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 748 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 11) (0 - 64) Secret out_b (count `op_Multiply` 6 + 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 749 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mov128 (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 750 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 12) (0 - 48) Secret out_b (count `op_Multiply` 6 + 3)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 751 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mov128 (va_op_xmm_xmm 12) (va_op_xmm_xmm 6)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 752 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 13) (0 - 32) Secret out_b (count `op_Multiply` 6 + 4)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 753 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mov128 (va_op_xmm_xmm 13) (va_op_xmm_xmm 7)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 754 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 14) (0 - 16) Secret out_b (count `op_Multiply` 6 + 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 755 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mov128 (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_QEmpty (())))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_save_output va_b0 va_s0 count out_b =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_ok; va_Mod_mem] in
let va_qc = va_qcode_Loop6x_save_output va_mods count out_b in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_save_output ()) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 712 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (label va_range1
"***** POSTCONDITION NOT MET AT line 737 column 84 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0)
(va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label
va_range1
"***** POSTCONDITION NOT MET AT line 738 column 120 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.buffer128_as_seq
(va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice
#Vale.X64.Decls.quad32 (Vale.X64.Decls.buffer128_as_seq (va_get_mem_heaplet 6 va_s0) out_b) 0
(6 `op_Multiply` count)) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 740 column 92 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0, va_get_xmm
13 va_s0, va_get_xmm 14 va_s0) == make_six_of #quad32 (fun (i:(va_int_range 0 5)) ->
Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_sM)))
/\ label va_range1
"***** POSTCONDITION NOT MET AT line 742 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == (Vale.Def.Types_s.quad32_xor (va_get_xmm 1 va_sM) (va_get_xmm
15 va_sM), va_get_xmm 0 va_sM, va_get_xmm 5 va_sM, va_get_xmm 6 va_sM, va_get_xmm 7 va_sM,
va_get_xmm 3 va_sM)))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm
12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_ok; va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Loop6x_save_output count out_b va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_save_output (va_code_Loop6x_save_output ()) va_s0 count
out_b in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 6 va_sM (va_update_xmm 14
va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10
va_sM (va_update_xmm 9 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm
12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_mem]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Loop6x_partial
#push-options "--z3rlimit 50 --max_ifuel 0"
[@ "opaque_to_smt" va_qattr]
let va_code_untransformedoriginal_Loop6x_partial alg =
(va_Block (va_CCons (va_code_Loop6x_preamble alg) (va_CCons (va_code_Loop6x_plain alg 0
(va_op_xmm_xmm 2)) (va_CCons (va_code_MulAdd_step 0 0 (va_op_xmm_xmm 1) (va_op_xmm_xmm 5)
(va_op_xmm_xmm 6) (va_op_xmm_xmm 7) (va_op_xmm_xmm 7) (va_op_xmm_xmm 3)) (va_CCons
(va_code_MulAdd_step 1 1 (va_op_xmm_xmm 5) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm
3) (va_op_xmm_xmm 0) (va_op_xmm_xmm 3)) (va_CCons (va_code_Loop6x_plain alg 1 (va_op_xmm_xmm
15)) (va_CCons (va_code_Loop6x_reverse128 5 2) (va_CCons (va_code_MulAdd_step 2 3
(va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_op_xmm_xmm 5) (va_op_xmm_xmm 0)
(va_op_xmm_xmm 5)) (va_CCons (va_code_Loop6x_plain alg 2 (va_op_xmm_xmm 15)) (va_CCons
(va_code_MulAdd_step 3 4 (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_op_xmm_xmm 5) (va_op_xmm_xmm
1) (va_op_xmm_xmm 0) (va_op_xmm_xmm 1)) (va_CCons (va_code_Loop6x_plain alg 3 (va_op_xmm_xmm
15)) (va_CCons (va_code_Loop6x_reverse128 4 3) (va_CCons (va_code_MulAdd_step 4 6
(va_op_xmm_xmm 3) (va_op_xmm_xmm 5) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 0)
(va_op_xmm_xmm 2)) (va_CCons (va_code_Loop6x_plain alg 4 (va_op_xmm_xmm 15)) (va_CCons
(va_code_Loop6x_reverse128 3 4) (va_CCons (va_code_MulAdd_step 5 7 (va_op_xmm_xmm 2)
(va_op_xmm_xmm 5) (va_op_xmm_xmm 1) (va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_xmm_xmm 3))
(va_CCons (va_code_Loop6x_plain alg 5 (va_op_xmm_xmm 15)) (va_CCons (va_code_Loop6x_reverse128
2 5) (va_CCons (va_code_Load_0xc2_msb (va_op_xmm_xmm 3)) (va_CCons (va_code_ReduceLast false)
(va_CCons (va_code_Loop6x_plain alg 6 (va_op_xmm_xmm 15)) (va_CCons (va_code_Loop6x_reverse128
1 6) (va_CCons (va_code_Loop6x_plain alg 7 (va_op_xmm_xmm 1)) (va_CCons
(va_code_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rR13)
(va_op_reg_opr64_reg64 rR14) (0 `op_Multiply` 16 + 8) Secret true) (va_CCons
(va_code_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rR12)
(va_op_reg_opr64_reg64 rR14) (0 `op_Multiply` 16) Secret false) (va_CCons (va_code_Loop6x_plain
alg 8 (va_op_xmm_xmm 15)) (va_CCons (if (alg = AES_256) then va_Block (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 1) (va_op_reg_opr64_reg64
rRcx) (160 - 128) Secret) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9)
(va_op_xmm_xmm 1)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10)
(va_op_xmm_xmm 1)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11)
(va_op_xmm_xmm 1)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12)
(va_op_xmm_xmm 1)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13)
(va_op_xmm_xmm 1)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14)
(va_op_xmm_xmm 1)) (va_CCons (va_code_Loop6x_plain alg 10 (va_op_xmm_xmm 15)) (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 1) (va_op_reg_opr64_reg64
rRcx) (192 - 128) Secret) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9)
(va_op_xmm_xmm 1)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10)
(va_op_xmm_xmm 1)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11)
(va_op_xmm_xmm 1)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12)
(va_op_xmm_xmm 1)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13)
(va_op_xmm_xmm 1)) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14)
(va_op_xmm_xmm 1)) (va_CCons (va_code_Loop6x_plain alg 12 (va_op_xmm_xmm 15)) (va_CNil
()))))))))))))))))) else va_Block (va_CNil ())) (va_CCons (if (alg = AES_256) then va_Block
(va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 1)
(va_op_reg_opr64_reg64 rRcx) (224 - 128) Secret) (va_CNil ())) else va_Block (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 1) (va_op_reg_opr64_reg64
rRcx) (160 - 128) Secret) (va_CNil ()))) (va_CCons (va_code_Loop6x_round9 alg) (va_CNil
()))))))))))))))))))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_untransformedoriginal_Loop6x_partial alg =
(va_pbool_and (va_codegen_success_Loop6x_preamble alg) (va_pbool_and
(va_codegen_success_Loop6x_plain alg 0 (va_op_xmm_xmm 2)) (va_pbool_and
(va_codegen_success_MulAdd_step 0 0 (va_op_xmm_xmm 1) (va_op_xmm_xmm 5) (va_op_xmm_xmm 6)
(va_op_xmm_xmm 7) (va_op_xmm_xmm 7) (va_op_xmm_xmm 3)) (va_pbool_and
(va_codegen_success_MulAdd_step 1 1 (va_op_xmm_xmm 5) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)
(va_op_xmm_xmm 3) (va_op_xmm_xmm 0) (va_op_xmm_xmm 3)) (va_pbool_and
(va_codegen_success_Loop6x_plain alg 1 (va_op_xmm_xmm 15)) (va_pbool_and
(va_codegen_success_Loop6x_reverse128 5 2) (va_pbool_and (va_codegen_success_MulAdd_step 2 3
(va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_op_xmm_xmm 5) (va_op_xmm_xmm 0)
(va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_Loop6x_plain alg 2 (va_op_xmm_xmm 15))
(va_pbool_and (va_codegen_success_MulAdd_step 3 4 (va_op_xmm_xmm 2) (va_op_xmm_xmm 3)
(va_op_xmm_xmm 5) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0) (va_op_xmm_xmm 1)) (va_pbool_and
(va_codegen_success_Loop6x_plain alg 3 (va_op_xmm_xmm 15)) (va_pbool_and
(va_codegen_success_Loop6x_reverse128 4 3) (va_pbool_and (va_codegen_success_MulAdd_step 4 6
(va_op_xmm_xmm 3) (va_op_xmm_xmm 5) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 0)
(va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_Loop6x_plain alg 4 (va_op_xmm_xmm 15))
(va_pbool_and (va_codegen_success_Loop6x_reverse128 3 4) (va_pbool_and
(va_codegen_success_MulAdd_step 5 7 (va_op_xmm_xmm 2) (va_op_xmm_xmm 5) (va_op_xmm_xmm 1)
(va_op_xmm_xmm 8) (va_op_xmm_xmm 8) (va_op_xmm_xmm 3)) (va_pbool_and
(va_codegen_success_Loop6x_plain alg 5 (va_op_xmm_xmm 15)) (va_pbool_and
(va_codegen_success_Loop6x_reverse128 2 5) (va_pbool_and (va_codegen_success_Load_0xc2_msb
(va_op_xmm_xmm 3)) (va_pbool_and (va_codegen_success_ReduceLast false) (va_pbool_and
(va_codegen_success_Loop6x_plain alg 6 (va_op_xmm_xmm 15)) (va_pbool_and
(va_codegen_success_Loop6x_reverse128 1 6) (va_pbool_and (va_codegen_success_Loop6x_plain alg 7
(va_op_xmm_xmm 1)) (va_pbool_and (va_codegen_success_LoadBe64_buffer128
(va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rR13) (va_op_reg_opr64_reg64 rR14) (0
`op_Multiply` 16 + 8) Secret true) (va_pbool_and (va_codegen_success_LoadBe64_buffer128
(va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rR12) (va_op_reg_opr64_reg64 rR14) (0
`op_Multiply` 16) Secret false) (va_pbool_and (va_codegen_success_Loop6x_plain alg 8
(va_op_xmm_xmm 15)) (va_pbool_and (if (alg = AES_256) then va_pbool_and
(va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 1)
(va_op_reg_opr64_reg64 rRcx) (160 - 128) Secret) (va_pbool_and (va_codegen_success_VAESNI_enc
(va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 1)) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 1))
(va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11)
(va_op_xmm_xmm 1)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 12)
(va_op_xmm_xmm 12) (va_op_xmm_xmm 1)) (va_pbool_and (va_codegen_success_VAESNI_enc
(va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 1)) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 1))
(va_pbool_and (va_codegen_success_Loop6x_plain alg 10 (va_op_xmm_xmm 15)) (va_pbool_and
(va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 1)
(va_op_reg_opr64_reg64 rRcx) (192 - 128) Secret) (va_pbool_and (va_codegen_success_VAESNI_enc
(va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 1)) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 1))
(va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11)
(va_op_xmm_xmm 1)) (va_pbool_and (va_codegen_success_VAESNI_enc (va_op_xmm_xmm 12)
(va_op_xmm_xmm 12) (va_op_xmm_xmm 1)) (va_pbool_and (va_codegen_success_VAESNI_enc
(va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 1)) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 1))
(va_pbool_and (va_codegen_success_Loop6x_plain alg 12 (va_op_xmm_xmm 15)) (va_ttrue
())))))))))))))))) else va_ttrue ()) (va_pbool_and (if (alg = AES_256) then va_pbool_and
(va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 1)
(va_op_reg_opr64_reg64 rRcx) (224 - 128) Secret) (va_ttrue ()) else va_pbool_and
(va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 1)
(va_op_reg_opr64_reg64 rRcx) (160 - 128) Secret) (va_ttrue ())) (va_pbool_and
(va_codegen_success_Loop6x_round9 alg) (va_ttrue ())))))))))))))))))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_untransformedoriginal_Loop6x_partial (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32)
(y_prev:quad32) (data:(seq quad32)) (count:nat) (in0_count:nat) (iv_b:buffer128)
(in0_b:buffer128) (in_b:buffer128) (scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq
quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) : (va_quickCode (quad32_6)
(va_code_untransformedoriginal_Loop6x_partial alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in let (prev:Vale.Math.Poly2_s.poly) =
Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 y_prev) in let
(init:quad32_6) = make_six_of #Vale.Def.Types_s.quad32 (fun (n:(va_int_range 0 5)) ->
Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite
ctr_BE n)) (va_get_xmm 15 va_s)) in let (start:(va_int_at_least 0)) = in0_count `op_Multiply` 6
in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 871 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_preamble alg h_LE iv_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE)
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 872 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_plain alg 0 key_words round_keys keys_b init (va_op_xmm_xmm 2)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 873 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_MulAdd_step 0 0 (va_op_xmm_xmm 1) (va_op_xmm_xmm 5) (va_op_xmm_xmm 6) (va_op_xmm_xmm
7) (va_op_xmm_xmm 7) (va_op_xmm_xmm 3) hkeys_b scratch_b h prev data) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 874 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_MulAdd_step 1 1 (va_op_xmm_xmm 5) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm
3) (va_op_xmm_xmm 0) (va_op_xmm_xmm 3) hkeys_b scratch_b h prev data) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 875 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_plain alg 1 key_words round_keys keys_b init (va_op_xmm_xmm 15)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 876 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_reverse128 5 2 start in0_b scratch_b) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 877 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_MulAdd_step 2 3 (va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_op_xmm_xmm
5) (va_op_xmm_xmm 0) (va_op_xmm_xmm 5) hkeys_b scratch_b h prev data) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 878 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_plain alg 2 key_words round_keys keys_b init (va_op_xmm_xmm 15)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 879 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_MulAdd_step 3 4 (va_op_xmm_xmm 2) (va_op_xmm_xmm 3) (va_op_xmm_xmm 5) (va_op_xmm_xmm
1) (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) hkeys_b scratch_b h prev data) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 880 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_plain alg 3 key_words round_keys keys_b init (va_op_xmm_xmm 15)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 881 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_reverse128 4 3 start in0_b scratch_b) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 882 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_MulAdd_step 4 6 (va_op_xmm_xmm 3) (va_op_xmm_xmm 5) (va_op_xmm_xmm 1) (va_op_xmm_xmm
2) (va_op_xmm_xmm 0) (va_op_xmm_xmm 2) hkeys_b scratch_b h prev data) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 883 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_plain alg 4 key_words round_keys keys_b init (va_op_xmm_xmm 15)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 884 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_reverse128 3 4 start in0_b scratch_b) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 885 column 16 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_MulAdd_step 5 7 (va_op_xmm_xmm 2) (va_op_xmm_xmm 5) (va_op_xmm_xmm 1) (va_op_xmm_xmm
8) (va_op_xmm_xmm 8) (va_op_xmm_xmm 3) hkeys_b scratch_b h prev data) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 886 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_plain alg 5 key_words round_keys keys_b init (va_op_xmm_xmm 15)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 887 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_reverse128 2 5 start in0_b scratch_b) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 888 column 18 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load_0xc2_msb (va_op_xmm_xmm 3)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 891 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_ReduceLast false h_LE y_prev data) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 892 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_plain alg 6 key_words round_keys keys_b init (va_op_xmm_xmm 15)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 893 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_reverse128 1 6 start in0_b scratch_b) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 894 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_plain alg 7 key_words round_keys keys_b init (va_op_xmm_xmm 1)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 895 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rR13)
(va_op_reg_opr64_reg64 rR14) (0 `op_Multiply` 16 + 8) Secret true in0_b (in0_count
`op_Multiply` 6 + 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 896 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rR12)
(va_op_reg_opr64_reg64 rR14) (0 `op_Multiply` 16) Secret false in0_b (in0_count `op_Multiply` 6
+ 0)) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 897 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_plain alg 8 key_words round_keys keys_b init (va_op_xmm_xmm 15)) (fun
(va_s:va_state) _ -> va_QBind va_range1
"***** PRECONDITION NOT MET AT line 901 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_qInlineIf va_mods (alg = AES_256) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 913 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 1) (va_op_reg_opr64_reg64
rRcx) (160 - 128) Secret keys_b 10) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 914 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 1)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 915 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 1)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 916 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 1)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 917 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 1)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 918 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 1)) (va_QBind
va_range1
"***** PRECONDITION NOT MET AT line 919 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 1)) (fun
(va_s:va_state) _ -> va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 921 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_s.eval_rounds_reveal ()) (va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 922 column 44 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.commute_sub_bytes_shift_rows_forall ()) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 923 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_plain alg 10 key_words round_keys keys_b init (va_op_xmm_xmm 15)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 926 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 1) (va_op_reg_opr64_reg64
rRcx) (192 - 128) Secret keys_b 12) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 927 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 1)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 928 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 1)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 929 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 1)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 930 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 1)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 931 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 1)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 932 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 1)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 934 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_plain alg 12 key_words round_keys keys_b init (va_op_xmm_xmm 15)) (va_QEmpty
(()))))))))))))))))))))) (qblock va_mods (fun (va_s:va_state) -> va_QEmpty (())))) (fun
(va_s:va_state) va_g -> va_QBind va_range1
"***** PRECONDITION NOT MET AT line 937 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_qInlineIf va_mods (alg = AES_256) (qblock va_mods (fun (va_s:va_state) -> va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 939 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 1) (va_op_reg_opr64_reg64
rRcx) (224 - 128) Secret keys_b 14) (va_QEmpty (())))) (qblock va_mods (fun (va_s:va_state) ->
va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 943 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 1) (va_op_reg_opr64_reg64
rRcx) (160 - 128) Secret keys_b 10) (va_QEmpty (()))))) (fun (va_s:va_state) va_g -> va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 946 column 18 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_round9 alg count in_b scratch_b key_words round_keys keys_b) (va_QEmpty
((init))))))))))))))))))))))))))))))))
[@"opaque_to_smt"]
let va_lemma_untransformedoriginal_Loop6x_partial va_b0 va_s0 alg h_LE y_prev data count in0_count
iv_b in0_b in_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_xmm
15; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9;
va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm
2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11;
va_Mod_reg64 rRbx; va_Mod_ok; va_Mod_mem] in
let va_qc = va_qcode_untransformedoriginal_Loop6x_partial va_mods alg h_LE y_prev data count
in0_count iv_b in0_b in_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_untransformedoriginal_Loop6x_partial
alg) va_qc va_s0 (fun va_s0 va_sM va_g -> let init = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 758 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in let (prev:Vale.Math.Poly2_s.poly) =
Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 y_prev) in label
va_range1
"***** POSTCONDITION NOT MET AT line 837 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 1 8) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 838 column 70 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 iv_b (va_get_mem_heaplet 2 va_s0)
(va_get_mem_heaplet 2 va_sM) 0 0) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 843 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 844 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite
ctr_BE 6) `op_Modulus` 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 847 column 118 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys (Vale.AES.AES_common_s.nr alg
- 1)) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 848 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rR13 va_sM == Vale.Def.Types_s.reverse_bytes_nat64 (Vale.Arch.Types.hi64
(Vale.X64.Decls.buffer128_read in0_b (in0_count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6
va_sM)))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 849 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rR12 va_sM == Vale.Def.Types_s.reverse_bytes_nat64 (Vale.Arch.Types.lo64
(Vale.X64.Decls.buffer128_read in0_b (in0_count `op_Multiply` 6 + 0) (va_get_mem_heaplet 6
va_sM)))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 850 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(let rk = FStar.Seq.Base.index #quad32 round_keys (Vale.AES.AES_common_s.nr alg) in label
va_range1
"***** POSTCONDITION NOT MET AT line 852 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 2 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5 va_sM, va_get_xmm 6 va_sM, va_get_xmm 7
va_sM, va_get_xmm 3 va_sM) == make_six_of #quad32 (fun (i:(va_int_range 0 5)) ->
Vale.Def.Types_s.quad32_xor rk (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i)
(va_get_mem_heaplet 6 va_sM)))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 853 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 857 column 122 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 2 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (in0_count
`op_Multiply` 6 + 5) (va_get_mem_heaplet 6 va_s0))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 858 column 122 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 3 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (in0_count
`op_Multiply` 6 + 4) (va_get_mem_heaplet 6 va_s0))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 859 column 122 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 4 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (in0_count
`op_Multiply` 6 + 3) (va_get_mem_heaplet 6 va_s0))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 860 column 122 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 5 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (in0_count
`op_Multiply` 6 + 2) (va_get_mem_heaplet 6 va_s0))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 861 column 122 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 6 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (in0_count
`op_Multiply` 6 + 1) (va_get_mem_heaplet 6 va_s0))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 863 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(init == make_six_of #quad32 (fun (n:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor
(Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE n))
(FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys 0))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 864 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(let eventual_Xi = add (add (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 8 va_sM))
(Vale.Math.Poly2.Bits_s.of_quad32 (Vale.X64.Decls.buffer128_read scratch_b 1
(va_get_mem_heaplet 3 va_sM)))) (Vale.Math.Poly2.Bits_s.of_quad32 (va_get_xmm 4 va_sM)) in
label va_range1
"***** POSTCONDITION NOT MET AT line 865 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(eventual_Xi == Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GHash.ghash_incremental h_LE y_prev data))))))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_xmm 15;
va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9;
va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm
2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11;
va_Mod_reg64 rRbx; va_Mod_ok; va_Mod_mem]) va_sM va_s0;
let init = va_g in
(va_sM, va_fM, init)
[@ "opaque_to_smt" va_qattr]
let va_transform_Loop6x_partial alg =
(reorder (va_code_untransformedoriginal_Loop6x_partial alg) (va_code_Loop6x_partial_expected_code
alg))
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_partial alg =
(va_get_result (va_transform_Loop6x_partial alg))
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_partial alg =
(va_pbool_and (va_codegen_success_untransformedoriginal_Loop6x_partial alg) (va_get_success
(va_transform_Loop6x_partial alg)))
[@"opaque_to_smt"]
let va_lemma_Loop6x_partial va_b0 va_s0 alg h_LE y_prev data count in0_count iv_b in0_b in_b
scratch_b key_words round_keys keys_b hkeys_b ctr_BE =
let va_orig = va_code_untransformedoriginal_Loop6x_partial alg in
let va_hint = va_code_Loop6x_partial_expected_code alg in
let va_transformed = va_code_Loop6x_partial alg in
let (va_sM_orig, va_fM_orig, init) = va_lemma_untransformedoriginal_Loop6x_partial va_orig va_s0
alg h_LE y_prev data count in0_count iv_b in0_b in_b scratch_b key_words round_keys keys_b
hkeys_b ctr_BE in
va_reveal_opaque (`%va_transform_Loop6x_partial) (va_transform_Loop6x_partial alg);
va_reveal_opaque (`%va_code_Loop6x_partial) (va_code_Loop6x_partial alg);
let (va_sM, va_fM) = lemma_reorder va_orig va_hint va_transformed va_s0 va_sM_orig va_fM_orig in
(va_sM, va_fM, init)
[@"opaque_to_smt"]
let va_wpProof_Loop6x_partial alg h_LE y_prev data count in0_count iv_b in0_b in_b scratch_b
key_words round_keys keys_b hkeys_b ctr_BE va_s0 va_k =
let (va_sM, va_f0, init) = va_lemma_Loop6x_partial (va_code_Loop6x_partial alg) va_s0 alg h_LE
y_prev data count in0_count iv_b in0_b in_b scratch_b key_words round_keys keys_b hkeys_b
ctr_BE in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM
(va_update_mem_heaplet 2 va_sM (va_update_xmm 15 va_sM (va_update_xmm 14 va_sM (va_update_xmm
13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm
9 va_sM (va_update_xmm 8 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5
va_sM (va_update_xmm 4 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1
va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM
(va_update_reg64 rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM (va_update_mem
va_sM va_s0))))))))))))))))))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_mem_heaplet 2; va_Mod_xmm 15;
va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9;
va_Mod_xmm 8; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 4; va_Mod_xmm 3; va_Mod_xmm
2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11;
va_Mod_reg64 rRbx; va_Mod_mem]) va_sM va_s0;
let va_g = (init) in
(va_sM, va_f0, va_g)
#pop-options
//--
//-- Loop6x
#push-options "--z3rlimit 100" | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.InsAes.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Transformers.Transform.fsti.checked",
"Vale.Math.Poly2_s.fsti.checked",
"Vale.Math.Poly2.Bits_s.fsti.checked",
"Vale.Math.Poly2.Bits.fsti.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Def.Prop_s.fst.checked",
"Vale.Def.Opaque_s.fsti.checked",
"Vale.Arch.TypesNative.fsti.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"Vale.AES.X64.PolyOps.fsti.checked",
"Vale.AES.X64.AESopt2.fsti.checked",
"Vale.AES.X64.AESGCM_expected_code.fsti.checked",
"Vale.AES.GHash.fsti.checked",
"Vale.AES.GF128_s.fsti.checked",
"Vale.AES.GF128.fsti.checked",
"Vale.AES.GCTR_s.fst.checked",
"Vale.AES.GCTR.fsti.checked",
"Vale.AES.GCM_helpers.fsti.checked",
"Vale.AES.AES_s.fst.checked",
"Vale.AES.AES_helpers.fsti.checked",
"Vale.AES.AES_common_s.fst.checked",
"prims.fst.checked",
"FStar.Seq.Base.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked"
],
"interface_file": true,
"source_file": "Vale.AES.X64.AESopt.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Transformers.Transform",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESGCM_expected_code",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESopt2",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.PolyOps",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GHash",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Math.Poly2_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.TypesNative",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCM_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsAes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"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.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Seq",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_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": "FStar.Mul",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Transformers.Transform",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESGCM_expected_code",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESopt2",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.PolyOps",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GHash",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Math.Poly2_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.TypesNative",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCM_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsAes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"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.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Seq",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_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.AES.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.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": 100,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | alg: Vale.AES.AES_common_s.algorithm -> Vale.X64.Decls.va_code | Prims.Tot | [
"total"
] | [] | [
"Vale.AES.AES_common_s.algorithm",
"Vale.X64.Decls.va_Block",
"Vale.X64.Decls.va_CCons",
"Vale.X64.Decls.va_CNil",
"Vale.AES.X64.AESopt.va_code_Loop6x_partial",
"Vale.AES.X64.AESopt.va_code_Loop6x_final",
"Vale.X64.InsBasic.va_code_Sub64",
"Vale.X64.Decls.va_op_dst_opr64_reg64",
"Vale.X64.Machine_s.rRdx",
"Vale.X64.Decls.va_const_opr64",
"Vale.X64.InsBasic.va_code_Add64",
"Vale.X64.Machine_s.rR14",
"Vale.X64.Decls.va_IfElse",
"Vale.X64.Decls.va_cmp_gt",
"Vale.X64.Decls.va_op_cmp_reg64",
"Vale.X64.Decls.va_const_cmp",
"Vale.AES.X64.AESopt.va_code_Loop6x_save_output",
"Vale.X64.InsVector.va_code_Load128_buffer",
"Vale.X64.Decls.va_op_heaplet_mem_heaplet",
"Vale.X64.Decls.va_op_xmm_xmm",
"Vale.X64.Decls.va_op_reg_opr64_reg64",
"Vale.X64.Machine_s.rRbp",
"Vale.Arch.HeapTypes_s.Secret",
"Vale.X64.InsVector.va_code_Mem128_lemma",
"Vale.AES.X64.PolyOps.va_code_VPolyAdd",
"Vale.X64.Decls.va_opr_code_Mem128",
"Vale.X64.Decls.va_op_reg64_reg64",
"Vale.X64.Decls.va_op_opr128_xmm",
"Vale.X64.Decls.va_code"
] | [] | false | false | false | true | false | let va_code_Loop6x alg =
| (va_Block (va_CCons (va_Block (va_CNil ()))
(va_CCons (va_Block (va_CNil ()))
(va_CCons (va_code_Loop6x_partial alg)
(va_CCons (va_code_Loop6x_final alg)
(va_CCons (va_code_Sub64 (va_op_dst_opr64_reg64 rRdx) (va_const_opr64 6))
(va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rR14) (va_const_opr64 96))
(va_CCons (va_Block (va_CNil ()))
(va_CCons (va_Block (va_CNil ()))
(va_CCons (va_Block (va_CNil ()))
(va_CCons (va_Block (va_CNil ()))
(va_CCons (va_IfElse (va_cmp_gt (va_op_cmp_reg64 rRdx)
(va_const_cmp 0))
(va_Block (va_CCons (va_code_Loop6x_save_output ()
)
(va_CCons (va_Block (va_CNil ()))
(va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet
3)
(va_op_xmm_xmm 7)
(va_op_reg_opr64_reg64 rRbp)
32
Secret)
(va_CCons (va_Block (va_CNil ())
)
(va_CNil ()))))))
(va_Block (va_CCons (va_code_Mem128_lemma ())
(va_CCons (va_code_VPolyAdd (va_op_xmm_xmm
8)
(va_op_xmm_xmm 8)
(va_opr_code_Mem128 (va_op_heaplet_mem_heaplet
3)
(va_op_reg64_reg64 rRbp)
16
Secret))
(va_CCons (va_code_VPolyAdd (va_op_xmm_xmm
8)
(va_op_xmm_xmm 8)
(va_op_opr128_xmm 4))
(va_CNil ()))))))
(va_CNil ()))))))))))))) | false |
FStar.Real.fsti | FStar.Real.test_gt2 | val test_gt2 : Prims.unit | let test_gt2 = assert (~ (1.0R >. 1.0R)) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 40,
"end_line": 71,
"start_col": 0,
"start_line": 71
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R)) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.l_not",
"Prims.b2t",
"FStar.Real.op_Greater_Dot"
] | [] | false | false | false | true | false | let test_gt2 =
| assert (~(1.0R >. 1.0R)) | false |
|
FStar.Real.fsti | FStar.Real.test_gt3 | val test_gt3 : Prims.unit | let test_gt3 = assert (2.0R >. 1.0R) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 36,
"end_line": 72,
"start_col": 0,
"start_line": 72
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R))
let test_gt1 = assert (~ (1.0R >. 2.0R)) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.b2t",
"FStar.Real.op_Greater_Dot"
] | [] | false | false | false | true | false | let test_gt3 =
| assert (2.0R >. 1.0R) | false |
|
FStar.Real.fsti | FStar.Real.test_ge3 | val test_ge3 : Prims.unit | let test_ge3 = assert (2.0R >=. 1.0R) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 37,
"end_line": 76,
"start_col": 0,
"start_line": 76
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R))
let test_gt1 = assert (~ (1.0R >. 2.0R))
let test_gt2 = assert (~ (1.0R >. 1.0R))
let test_gt3 = assert (2.0R >. 1.0R)
let test_ge1 = assert (~ (1.0R >=. 2.0R)) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.b2t",
"FStar.Real.op_Greater_Equals_Dot"
] | [] | false | false | false | true | false | let test_ge3 =
| assert (2.0R >=. 1.0R) | false |
|
Pulse.Syntax.Builder.fst | Pulse.Syntax.Builder.mk_fold_hint_type | val mk_fold_hint_type : names: FStar.Pervasives.Native.option (Prims.list Prims.string) -> p: Pulse.Syntax.Base.vprop
-> Pulse.Syntax.Base.proof_hint_type | let mk_fold_hint_type names p = FOLD { names; p } | {
"file_name": "lib/steel/pulse/Pulse.Syntax.Builder.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 49,
"end_line": 46,
"start_col": 0,
"start_line": 46
} | (*
Copyright 2023 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.
*)
module Pulse.Syntax.Builder
open Pulse.Syntax
let pat_var s = Pat_Var s
let pat_const c = Pat_Constant c
let pat_cons fv vs = Pat_Cons fv vs
let tm_return expected_type insert_eq term = Tm_Return { expected_type; insert_eq; term }
let tm_abs b q ascription body = Tm_Abs { b; q; ascription; body }
let tm_stapp head arg_qual arg = Tm_STApp { head; arg_qual; arg }
let tm_bind binder head body = Tm_Bind { binder; head; body }
let tm_totbind binder head body = Tm_TotBind { binder; head; body }
let tm_if b then_ else_ post = Tm_If { b; then_; else_; post }
let tm_match sc returns_ brs = Tm_Match {sc; returns_; brs}
let tm_elim_exists p = Tm_ElimExists { p }
let tm_intro_exists p witnesses = Tm_IntroExists { p; witnesses }
let tm_while invariant condition condition_var body = Tm_While { invariant; condition; condition_var; body }
let tm_par pre1 body1 post1 pre2 body2 post2 = Tm_Par { pre1; body1; post1; pre2; body2; post2 }
let tm_with_inv name body returns_inv = Tm_WithInv { name; body; returns_inv }
let tm_with_local binder initializer body = Tm_WithLocal { binder; initializer; body }
let tm_with_local_array binder initializer length body = Tm_WithLocalArray { binder; initializer; length; body }
let tm_rewrite t1 t2 = Tm_Rewrite { t1; t2 }
let tm_rename pairs t = Tm_ProofHintWithBinders { hint_type = RENAME { pairs; goal=None}; binders=[]; t}
let tm_admit ctag u typ post = Tm_Admit { ctag; u; typ; post }
let tm_unreachable = Tm_Unreachable
let with_range t r = { term = t; range = r; effect_tag = default_effect_hint }
let tm_assert_with_binders bs p t = Tm_ProofHintWithBinders { hint_type=ASSERT { p }; binders=bs; t }
let mk_assert_hint_type p = ASSERT { p } | {
"checked_file": "/",
"dependencies": [
"Pulse.Syntax.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Syntax.Builder.fst"
} | [
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"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 | names: FStar.Pervasives.Native.option (Prims.list Prims.string) -> p: Pulse.Syntax.Base.vprop
-> Pulse.Syntax.Base.proof_hint_type | Prims.Tot | [
"total"
] | [] | [
"FStar.Pervasives.Native.option",
"Prims.list",
"Prims.string",
"Pulse.Syntax.Base.vprop",
"Pulse.Syntax.Base.FOLD",
"Pulse.Syntax.Base.Mkproof_hint_type__FOLD__payload",
"Pulse.Syntax.Base.proof_hint_type"
] | [] | false | false | false | true | false | let mk_fold_hint_type names p =
| FOLD ({ names = names; p = p }) | false |
|
FStar.Real.fsti | FStar.Real.test_add_lt | val test_add_lt : Prims.unit | let test_add_lt = assert (1.0R +. 1.0R <. 3.0R) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 47,
"end_line": 80,
"start_col": 0,
"start_line": 80
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R))
let test_gt1 = assert (~ (1.0R >. 2.0R))
let test_gt2 = assert (~ (1.0R >. 1.0R))
let test_gt3 = assert (2.0R >. 1.0R)
let test_ge1 = assert (~ (1.0R >=. 2.0R))
let test_ge2 = assert (1.0R >=. 1.0R)
let test_ge3 = assert (2.0R >=. 1.0R)
let test_add_eq = assert (1.0R +. 1.0R = 2.0R) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.b2t",
"FStar.Real.op_Less_Dot",
"FStar.Real.op_Plus_Dot"
] | [] | false | false | false | true | false | let test_add_lt =
| assert (1.0R +. 1.0R <. 3.0R) | false |
|
CQueue.LList.fst | CQueue.LList.cllist0_refine | val cllist0_refine: #a: Type0 -> c: cllist_ptrvalue a -> t_of emp -> Tot prop | val cllist0_refine: #a: Type0 -> c: cllist_ptrvalue a -> t_of emp -> Tot prop | let cllist0_refine
(#a: Type0)
(c: cllist_ptrvalue a)
(_: t_of emp)
: Tot prop
= cllist_ptrvalue_is_null c == false | {
"file_name": "share/steel/examples/steel/CQueue.LList.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 36,
"end_line": 27,
"start_col": 0,
"start_line": 22
} | module CQueue.LList
noeq
type cllist_ptrvalue (a: Type0) = {
head: ref (ccell_ptrvalue a);
tail: ref (ref (ccell_ptrvalue a));
all_or_none_null: squash (is_null head == is_null tail);
}
let cllist_ptrvalue_null a = {head = null; tail = null; all_or_none_null = ()}
let cllist_ptrvalue_is_null #a x = is_null x.head
let cllist_head #a c =
c.head
let cllist_tail #a c =
c.tail
#push-options "--ide_id_info_off" | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": true,
"source_file": "CQueue.LList.fst"
} | [
{
"abbrev": false,
"full_module": "Steel.Reference",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.FractionalPermission",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Effect",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Effect.Atomic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "CQueue.Cell",
"short_module": null
},
{
"abbrev": false,
"full_module": "CQueue",
"short_module": null
},
{
"abbrev": false,
"full_module": "CQueue",
"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 | c: CQueue.LList.cllist_ptrvalue a -> _: Steel.Effect.Common.t_of Steel.Effect.Common.emp
-> Prims.prop | Prims.Tot | [
"total"
] | [] | [
"CQueue.LList.cllist_ptrvalue",
"Steel.Effect.Common.t_of",
"Steel.Effect.Common.emp",
"Prims.eq2",
"Prims.bool",
"CQueue.LList.cllist_ptrvalue_is_null",
"Prims.prop"
] | [] | false | false | false | true | true | let cllist0_refine (#a: Type0) (c: cllist_ptrvalue a) (_: t_of emp) : Tot prop =
| cllist_ptrvalue_is_null c == false | false |
FStar.Real.fsti | FStar.Real.test_div_eq | val test_div_eq : Prims.unit | let test_div_eq = assert (8.0R /. 2.0R = 4.0R) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 46,
"end_line": 85,
"start_col": 0,
"start_line": 85
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R))
let test_gt1 = assert (~ (1.0R >. 2.0R))
let test_gt2 = assert (~ (1.0R >. 1.0R))
let test_gt3 = assert (2.0R >. 1.0R)
let test_ge1 = assert (~ (1.0R >=. 2.0R))
let test_ge2 = assert (1.0R >=. 1.0R)
let test_ge3 = assert (2.0R >=. 1.0R)
let test_add_eq = assert (1.0R +. 1.0R = 2.0R)
let test_add_eq' = assert (1.0R +. 3.0R = 4.0R)
let test_add_lt = assert (1.0R +. 1.0R <. 3.0R)
let test_mul_eq = assert (2.0R *. 2.0R = 4.0R)
let test_mul_lt = assert (2.0R *. 2.0R <. 5.0R) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.b2t",
"Prims.op_Equality",
"FStar.Real.real",
"FStar.Real.op_Slash_Dot"
] | [] | false | false | false | true | false | let test_div_eq =
| assert (8.0R /. 2.0R = 4.0R) | false |
|
FStar.Real.fsti | FStar.Real.test_add_eq' | val test_add_eq' : Prims.unit | let test_add_eq' = assert (1.0R +. 3.0R = 4.0R) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 47,
"end_line": 79,
"start_col": 0,
"start_line": 79
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R))
let test_gt1 = assert (~ (1.0R >. 2.0R))
let test_gt2 = assert (~ (1.0R >. 1.0R))
let test_gt3 = assert (2.0R >. 1.0R)
let test_ge1 = assert (~ (1.0R >=. 2.0R))
let test_ge2 = assert (1.0R >=. 1.0R)
let test_ge3 = assert (2.0R >=. 1.0R) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.b2t",
"Prims.op_Equality",
"FStar.Real.real",
"FStar.Real.op_Plus_Dot"
] | [] | false | false | false | true | false | let test_add_eq' =
| assert (1.0R +. 3.0R = 4.0R) | false |
|
FStar.Real.fsti | FStar.Real.test_div_lt | val test_div_lt : Prims.unit | let test_div_lt = assert (8.0R /. 2.0R <. 5.0R) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 47,
"end_line": 86,
"start_col": 0,
"start_line": 86
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R))
let test_gt1 = assert (~ (1.0R >. 2.0R))
let test_gt2 = assert (~ (1.0R >. 1.0R))
let test_gt3 = assert (2.0R >. 1.0R)
let test_ge1 = assert (~ (1.0R >=. 2.0R))
let test_ge2 = assert (1.0R >=. 1.0R)
let test_ge3 = assert (2.0R >=. 1.0R)
let test_add_eq = assert (1.0R +. 1.0R = 2.0R)
let test_add_eq' = assert (1.0R +. 3.0R = 4.0R)
let test_add_lt = assert (1.0R +. 1.0R <. 3.0R)
let test_mul_eq = assert (2.0R *. 2.0R = 4.0R)
let test_mul_lt = assert (2.0R *. 2.0R <. 5.0R) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.b2t",
"FStar.Real.op_Less_Dot",
"FStar.Real.op_Slash_Dot"
] | [] | false | false | false | true | false | let test_div_lt =
| assert (8.0R /. 2.0R <. 5.0R) | false |
|
FStar.Real.fsti | FStar.Real.test_mul_eq | val test_mul_eq : Prims.unit | let test_mul_eq = assert (2.0R *. 2.0R = 4.0R) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 46,
"end_line": 82,
"start_col": 0,
"start_line": 82
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R))
let test_gt1 = assert (~ (1.0R >. 2.0R))
let test_gt2 = assert (~ (1.0R >. 1.0R))
let test_gt3 = assert (2.0R >. 1.0R)
let test_ge1 = assert (~ (1.0R >=. 2.0R))
let test_ge2 = assert (1.0R >=. 1.0R)
let test_ge3 = assert (2.0R >=. 1.0R)
let test_add_eq = assert (1.0R +. 1.0R = 2.0R)
let test_add_eq' = assert (1.0R +. 3.0R = 4.0R)
let test_add_lt = assert (1.0R +. 1.0R <. 3.0R) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.b2t",
"Prims.op_Equality",
"FStar.Real.real",
"FStar.Real.op_Star_Dot"
] | [] | false | false | false | true | false | let test_mul_eq =
| assert (2.0R *. 2.0R = 4.0R) | false |
|
HoareDiv.fst | HoareDiv.return | val return (a: Type) (x: a) : repr a True (fun r -> r == x) | val return (a: Type) (x: a) : repr a True (fun r -> r == x) | let return (a:Type) (x:a)
: repr a True (fun r -> r == x)
= fun _ -> x | {
"file_name": "examples/layeredeffects/HoareDiv.fst",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 12,
"end_line": 29,
"start_col": 0,
"start_line": 27
} | (*
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.
*)
module HoareDiv
/// A hoare style DIV effect (the specs are hoare triples rather than wp-based)
open FStar.Monotonic.Pure
type repr (a:Type) (req:Type0) (ens:a -> Type0) =
unit -> DIV a (as_pure_wp (fun p -> req /\ (forall (x:a). ens x ==> p x))) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Monotonic.Pure.fst.checked"
],
"interface_file": false,
"source_file": "HoareDiv.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Monotonic.Pure",
"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 -> HoareDiv.repr a Prims.l_True (fun r -> r == x) | Prims.Tot | [
"total"
] | [] | [
"Prims.unit",
"HoareDiv.repr",
"Prims.l_True",
"Prims.eq2"
] | [] | false | false | false | false | false | let return (a: Type) (x: a) : repr a True (fun r -> r == x) =
| fun _ -> x | false |
FStar.Real.fsti | FStar.Real.test_add_eq | val test_add_eq : Prims.unit | let test_add_eq = assert (1.0R +. 1.0R = 2.0R) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 46,
"end_line": 78,
"start_col": 0,
"start_line": 78
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R))
let test_gt1 = assert (~ (1.0R >. 2.0R))
let test_gt2 = assert (~ (1.0R >. 1.0R))
let test_gt3 = assert (2.0R >. 1.0R)
let test_ge1 = assert (~ (1.0R >=. 2.0R))
let test_ge2 = assert (1.0R >=. 1.0R)
let test_ge3 = assert (2.0R >=. 1.0R) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.b2t",
"Prims.op_Equality",
"FStar.Real.real",
"FStar.Real.op_Plus_Dot"
] | [] | false | false | false | true | false | let test_add_eq =
| assert (1.0R +. 1.0R = 2.0R) | false |
|
CQueue.LList.fst | CQueue.LList.cllist0 | val cllist0 (a: Type0) (c: cllist_lvalue a) : Tot vprop | val cllist0 (a: Type0) (c: cllist_lvalue a) : Tot vprop | let cllist0 (a: Type0) (c: cllist_lvalue a) : Tot vprop =
(vptr (cllist_head c) `star` vptr (cllist_tail c)) | {
"file_name": "share/steel/examples/steel/CQueue.LList.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 52,
"end_line": 39,
"start_col": 0,
"start_line": 38
} | module CQueue.LList
noeq
type cllist_ptrvalue (a: Type0) = {
head: ref (ccell_ptrvalue a);
tail: ref (ref (ccell_ptrvalue a));
all_or_none_null: squash (is_null head == is_null tail);
}
let cllist_ptrvalue_null a = {head = null; tail = null; all_or_none_null = ()}
let cllist_ptrvalue_is_null #a x = is_null x.head
let cllist_head #a c =
c.head
let cllist_tail #a c =
c.tail
#push-options "--ide_id_info_off"
let cllist0_refine
(#a: Type0)
(c: cllist_ptrvalue a)
(_: t_of emp)
: Tot prop
= cllist_ptrvalue_is_null c == false
// unfold
let cllist0_rewrite
(#a: Type0)
(c: cllist_ptrvalue a)
(_: t_of (emp `vrefine` cllist0_refine c))
: Tot (cllist_lvalue a)
= c | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": true,
"source_file": "CQueue.LList.fst"
} | [
{
"abbrev": false,
"full_module": "Steel.Reference",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.FractionalPermission",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Effect",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Effect.Atomic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "CQueue.Cell",
"short_module": null
},
{
"abbrev": false,
"full_module": "CQueue",
"short_module": null
},
{
"abbrev": false,
"full_module": "CQueue",
"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: Type0 -> c: CQueue.LList.cllist_lvalue a -> Steel.Effect.Common.vprop | Prims.Tot | [
"total"
] | [] | [
"CQueue.LList.cllist_lvalue",
"Steel.Effect.Common.star",
"Steel.Reference.vptr",
"CQueue.Cell.ccell_ptrvalue",
"CQueue.LList.cllist_head",
"Steel.Reference.ref",
"CQueue.LList.cllist_tail",
"Steel.Effect.Common.vprop"
] | [] | false | false | false | true | false | let cllist0 (a: Type0) (c: cllist_lvalue a) : Tot vprop =
| ((vptr (cllist_head c)) `star` (vptr (cllist_tail c))) | false |
FStar.Real.fsti | FStar.Real.test_mul_lt | val test_mul_lt : Prims.unit | let test_mul_lt = assert (2.0R *. 2.0R <. 5.0R) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 47,
"end_line": 83,
"start_col": 0,
"start_line": 83
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R))
let test_gt1 = assert (~ (1.0R >. 2.0R))
let test_gt2 = assert (~ (1.0R >. 1.0R))
let test_gt3 = assert (2.0R >. 1.0R)
let test_ge1 = assert (~ (1.0R >=. 2.0R))
let test_ge2 = assert (1.0R >=. 1.0R)
let test_ge3 = assert (2.0R >=. 1.0R)
let test_add_eq = assert (1.0R +. 1.0R = 2.0R)
let test_add_eq' = assert (1.0R +. 3.0R = 4.0R)
let test_add_lt = assert (1.0R +. 1.0R <. 3.0R) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.b2t",
"FStar.Real.op_Less_Dot",
"FStar.Real.op_Star_Dot"
] | [] | false | false | false | true | false | let test_mul_lt =
| assert (2.0R *. 2.0R <. 5.0R) | false |
|
FStar.Real.fsti | FStar.Real.test_sqrt_2_mul | val test_sqrt_2_mul : Prims.unit | let test_sqrt_2_mul = assert (sqrt_2 *. sqrt_2 = 2.0R) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 54,
"end_line": 88,
"start_col": 0,
"start_line": 88
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R))
let test_gt1 = assert (~ (1.0R >. 2.0R))
let test_gt2 = assert (~ (1.0R >. 1.0R))
let test_gt3 = assert (2.0R >. 1.0R)
let test_ge1 = assert (~ (1.0R >=. 2.0R))
let test_ge2 = assert (1.0R >=. 1.0R)
let test_ge3 = assert (2.0R >=. 1.0R)
let test_add_eq = assert (1.0R +. 1.0R = 2.0R)
let test_add_eq' = assert (1.0R +. 3.0R = 4.0R)
let test_add_lt = assert (1.0R +. 1.0R <. 3.0R)
let test_mul_eq = assert (2.0R *. 2.0R = 4.0R)
let test_mul_lt = assert (2.0R *. 2.0R <. 5.0R)
let test_div_eq = assert (8.0R /. 2.0R = 4.0R)
let test_div_lt = assert (8.0R /. 2.0R <. 5.0R) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.b2t",
"Prims.op_Equality",
"FStar.Real.real",
"FStar.Real.op_Star_Dot",
"FStar.Real.sqrt_2"
] | [] | false | false | false | true | false | let test_sqrt_2_mul =
| assert (sqrt_2 *. sqrt_2 = 2.0R) | false |
|
FStar.Real.fsti | FStar.Real.add_id_l | val add_id_l : Prims.unit | let add_id_l = assert (forall n. 0.0R +. n = n) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 47,
"end_line": 93,
"start_col": 0,
"start_line": 93
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R))
let test_gt1 = assert (~ (1.0R >. 2.0R))
let test_gt2 = assert (~ (1.0R >. 1.0R))
let test_gt3 = assert (2.0R >. 1.0R)
let test_ge1 = assert (~ (1.0R >=. 2.0R))
let test_ge2 = assert (1.0R >=. 1.0R)
let test_ge3 = assert (2.0R >=. 1.0R)
let test_add_eq = assert (1.0R +. 1.0R = 2.0R)
let test_add_eq' = assert (1.0R +. 3.0R = 4.0R)
let test_add_lt = assert (1.0R +. 1.0R <. 3.0R)
let test_mul_eq = assert (2.0R *. 2.0R = 4.0R)
let test_mul_lt = assert (2.0R *. 2.0R <. 5.0R)
let test_div_eq = assert (8.0R /. 2.0R = 4.0R)
let test_div_lt = assert (8.0R /. 2.0R <. 5.0R)
let test_sqrt_2_mul = assert (sqrt_2 *. sqrt_2 = 2.0R)
//let test_sqrt_2_add = assert (sqrt_2 +. sqrt_2 >. 2.0R) // Fails
let test_sqrt_2_scale = assert (1.0R /. sqrt_2 = sqrt_2 /. 2.0R) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.l_Forall",
"FStar.Real.real",
"Prims.b2t",
"Prims.op_Equality",
"FStar.Real.op_Plus_Dot"
] | [] | false | false | false | true | false | let add_id_l =
| assert (forall n. 0.0R +. n = n) | false |
|
CQueue.LList.fst | CQueue.LList.cllist_hp | val cllist_hp
(#a: Type0)
(c: cllist_ptrvalue a)
: Tot (slprop u#1) | val cllist_hp
(#a: Type0)
(c: cllist_ptrvalue a)
: Tot (slprop u#1) | let cllist_hp
#a c
= hp_of (cllist1 c) | {
"file_name": "share/steel/examples/steel/CQueue.LList.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 19,
"end_line": 64,
"start_col": 0,
"start_line": 62
} | module CQueue.LList
noeq
type cllist_ptrvalue (a: Type0) = {
head: ref (ccell_ptrvalue a);
tail: ref (ref (ccell_ptrvalue a));
all_or_none_null: squash (is_null head == is_null tail);
}
let cllist_ptrvalue_null a = {head = null; tail = null; all_or_none_null = ()}
let cllist_ptrvalue_is_null #a x = is_null x.head
let cllist_head #a c =
c.head
let cllist_tail #a c =
c.tail
#push-options "--ide_id_info_off"
let cllist0_refine
(#a: Type0)
(c: cllist_ptrvalue a)
(_: t_of emp)
: Tot prop
= cllist_ptrvalue_is_null c == false
// unfold
let cllist0_rewrite
(#a: Type0)
(c: cllist_ptrvalue a)
(_: t_of (emp `vrefine` cllist0_refine c))
: Tot (cllist_lvalue a)
= c
[@@ __steel_reduce__]
let cllist0 (a: Type0) (c: cllist_lvalue a) : Tot vprop =
(vptr (cllist_head c) `star` vptr (cllist_tail c))
// unfold
let cllist_rewrite
(#a: Type0)
(c: cllist_ptrvalue a)
(x: dtuple2 (cllist_lvalue a) (vdep_payload (emp `vrefine` cllist0_refine c `vrewrite` cllist0_rewrite c) (cllist0 a)))
: GTot (vllist a)
= let p =
dsnd #(cllist_lvalue a) #(vdep_payload (emp `vrefine` cllist0_refine c `vrewrite` cllist0_rewrite c) (cllist0 a)) x
in
{
vllist_head = fst p;
vllist_tail = snd p;
}
[@@ __steel_reduce__ ; __reduce__] // to avoid manual unfoldings through change_slprop
let cllist1
(#a: Type0)
(c: cllist_ptrvalue a)
: Tot vprop
= emp `vrefine` cllist0_refine c `vrewrite` cllist0_rewrite c `vdep` cllist0 a `vrewrite` cllist_rewrite c | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": true,
"source_file": "CQueue.LList.fst"
} | [
{
"abbrev": false,
"full_module": "Steel.Reference",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.FractionalPermission",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Effect",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Effect.Atomic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "CQueue.Cell",
"short_module": null
},
{
"abbrev": false,
"full_module": "CQueue",
"short_module": null
},
{
"abbrev": false,
"full_module": "CQueue",
"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 | c: CQueue.LList.cllist_ptrvalue a -> Steel.Memory.slprop | Prims.Tot | [
"total"
] | [] | [
"CQueue.LList.cllist_ptrvalue",
"Steel.Effect.Common.hp_of",
"CQueue.LList.cllist1",
"Steel.Memory.slprop"
] | [] | false | false | false | true | false | let cllist_hp #a c =
| hp_of (cllist1 c) | false |
FStar.Real.fsti | FStar.Real.add_id_r | val add_id_r : Prims.unit | let add_id_r = assert (forall n. n +. 0.0R = n) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 47,
"end_line": 94,
"start_col": 0,
"start_line": 94
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R))
let test_gt1 = assert (~ (1.0R >. 2.0R))
let test_gt2 = assert (~ (1.0R >. 1.0R))
let test_gt3 = assert (2.0R >. 1.0R)
let test_ge1 = assert (~ (1.0R >=. 2.0R))
let test_ge2 = assert (1.0R >=. 1.0R)
let test_ge3 = assert (2.0R >=. 1.0R)
let test_add_eq = assert (1.0R +. 1.0R = 2.0R)
let test_add_eq' = assert (1.0R +. 3.0R = 4.0R)
let test_add_lt = assert (1.0R +. 1.0R <. 3.0R)
let test_mul_eq = assert (2.0R *. 2.0R = 4.0R)
let test_mul_lt = assert (2.0R *. 2.0R <. 5.0R)
let test_div_eq = assert (8.0R /. 2.0R = 4.0R)
let test_div_lt = assert (8.0R /. 2.0R <. 5.0R)
let test_sqrt_2_mul = assert (sqrt_2 *. sqrt_2 = 2.0R)
//let test_sqrt_2_add = assert (sqrt_2 +. sqrt_2 >. 2.0R) // Fails
let test_sqrt_2_scale = assert (1.0R /. sqrt_2 = sqrt_2 /. 2.0R)
// Common identities | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.l_Forall",
"FStar.Real.real",
"Prims.b2t",
"Prims.op_Equality",
"FStar.Real.op_Plus_Dot"
] | [] | false | false | false | true | false | let add_id_r =
| assert (forall n. n +. 0.0R = n) | false |
|
FStar.Real.fsti | FStar.Real.mul_nil_r | val mul_nil_r : Prims.unit | let mul_nil_r = assert (forall n. n *. 0.0R = 0.0R) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 51,
"end_line": 97,
"start_col": 0,
"start_line": 97
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R))
let test_gt1 = assert (~ (1.0R >. 2.0R))
let test_gt2 = assert (~ (1.0R >. 1.0R))
let test_gt3 = assert (2.0R >. 1.0R)
let test_ge1 = assert (~ (1.0R >=. 2.0R))
let test_ge2 = assert (1.0R >=. 1.0R)
let test_ge3 = assert (2.0R >=. 1.0R)
let test_add_eq = assert (1.0R +. 1.0R = 2.0R)
let test_add_eq' = assert (1.0R +. 3.0R = 4.0R)
let test_add_lt = assert (1.0R +. 1.0R <. 3.0R)
let test_mul_eq = assert (2.0R *. 2.0R = 4.0R)
let test_mul_lt = assert (2.0R *. 2.0R <. 5.0R)
let test_div_eq = assert (8.0R /. 2.0R = 4.0R)
let test_div_lt = assert (8.0R /. 2.0R <. 5.0R)
let test_sqrt_2_mul = assert (sqrt_2 *. sqrt_2 = 2.0R)
//let test_sqrt_2_add = assert (sqrt_2 +. sqrt_2 >. 2.0R) // Fails
let test_sqrt_2_scale = assert (1.0R /. sqrt_2 = sqrt_2 /. 2.0R)
// Common identities
let add_id_l = assert (forall n. 0.0R +. n = n)
let add_id_r = assert (forall n. n +. 0.0R = n) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.l_Forall",
"FStar.Real.real",
"Prims.b2t",
"Prims.op_Equality",
"FStar.Real.op_Star_Dot"
] | [] | false | false | false | true | false | let mul_nil_r =
| assert (forall n. n *. 0.0R = 0.0R) | false |
|
FStar.Real.fsti | FStar.Real.mul_nil_l | val mul_nil_l : Prims.unit | let mul_nil_l = assert (forall n. 0.0R *. n = 0.0R) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 51,
"end_line": 96,
"start_col": 0,
"start_line": 96
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R))
let test_gt1 = assert (~ (1.0R >. 2.0R))
let test_gt2 = assert (~ (1.0R >. 1.0R))
let test_gt3 = assert (2.0R >. 1.0R)
let test_ge1 = assert (~ (1.0R >=. 2.0R))
let test_ge2 = assert (1.0R >=. 1.0R)
let test_ge3 = assert (2.0R >=. 1.0R)
let test_add_eq = assert (1.0R +. 1.0R = 2.0R)
let test_add_eq' = assert (1.0R +. 3.0R = 4.0R)
let test_add_lt = assert (1.0R +. 1.0R <. 3.0R)
let test_mul_eq = assert (2.0R *. 2.0R = 4.0R)
let test_mul_lt = assert (2.0R *. 2.0R <. 5.0R)
let test_div_eq = assert (8.0R /. 2.0R = 4.0R)
let test_div_lt = assert (8.0R /. 2.0R <. 5.0R)
let test_sqrt_2_mul = assert (sqrt_2 *. sqrt_2 = 2.0R)
//let test_sqrt_2_add = assert (sqrt_2 +. sqrt_2 >. 2.0R) // Fails
let test_sqrt_2_scale = assert (1.0R /. sqrt_2 = sqrt_2 /. 2.0R)
// Common identities
let add_id_l = assert (forall n. 0.0R +. n = n)
let add_id_r = assert (forall n. n +. 0.0R = n) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.l_Forall",
"FStar.Real.real",
"Prims.b2t",
"Prims.op_Equality",
"FStar.Real.op_Star_Dot"
] | [] | false | false | false | true | false | let mul_nil_l =
| assert (forall n. 0.0R *. n = 0.0R) | false |
|
FStar.Real.fsti | FStar.Real.mul_assoc | val mul_assoc : Prims.unit | let mul_assoc = assert (forall x y z. ((x *. y) *.z) = (x *. (y *. z))) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 71,
"end_line": 106,
"start_col": 0,
"start_line": 106
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R))
let test_gt1 = assert (~ (1.0R >. 2.0R))
let test_gt2 = assert (~ (1.0R >. 1.0R))
let test_gt3 = assert (2.0R >. 1.0R)
let test_ge1 = assert (~ (1.0R >=. 2.0R))
let test_ge2 = assert (1.0R >=. 1.0R)
let test_ge3 = assert (2.0R >=. 1.0R)
let test_add_eq = assert (1.0R +. 1.0R = 2.0R)
let test_add_eq' = assert (1.0R +. 3.0R = 4.0R)
let test_add_lt = assert (1.0R +. 1.0R <. 3.0R)
let test_mul_eq = assert (2.0R *. 2.0R = 4.0R)
let test_mul_lt = assert (2.0R *. 2.0R <. 5.0R)
let test_div_eq = assert (8.0R /. 2.0R = 4.0R)
let test_div_lt = assert (8.0R /. 2.0R <. 5.0R)
let test_sqrt_2_mul = assert (sqrt_2 *. sqrt_2 = 2.0R)
//let test_sqrt_2_add = assert (sqrt_2 +. sqrt_2 >. 2.0R) // Fails
let test_sqrt_2_scale = assert (1.0R /. sqrt_2 = sqrt_2 /. 2.0R)
// Common identities
let add_id_l = assert (forall n. 0.0R +. n = n)
let add_id_r = assert (forall n. n +. 0.0R = n)
let mul_nil_l = assert (forall n. 0.0R *. n = 0.0R)
let mul_nil_r = assert (forall n. n *. 0.0R = 0.0R)
let mul_id_l = assert (forall n. 1.0R *. n = n)
let mul_id_r = assert (forall n. n *. 1.0R = n)
let add_comm = assert (forall x y. x +. y = y +.x)
let add_assoc = assert (forall x y z. ((x +. y) +.z) = (x +. (y +. z))) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.l_Forall",
"FStar.Real.real",
"Prims.b2t",
"Prims.op_Equality",
"FStar.Real.op_Star_Dot"
] | [] | false | false | false | true | false | let mul_assoc =
| assert (forall x y z. ((x *. y) *. z) = (x *. (y *. z))) | false |
|
FStar.Real.fsti | FStar.Real.mul_id_l | val mul_id_l : Prims.unit | let mul_id_l = assert (forall n. 1.0R *. n = n) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 47,
"end_line": 99,
"start_col": 0,
"start_line": 99
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R))
let test_gt1 = assert (~ (1.0R >. 2.0R))
let test_gt2 = assert (~ (1.0R >. 1.0R))
let test_gt3 = assert (2.0R >. 1.0R)
let test_ge1 = assert (~ (1.0R >=. 2.0R))
let test_ge2 = assert (1.0R >=. 1.0R)
let test_ge3 = assert (2.0R >=. 1.0R)
let test_add_eq = assert (1.0R +. 1.0R = 2.0R)
let test_add_eq' = assert (1.0R +. 3.0R = 4.0R)
let test_add_lt = assert (1.0R +. 1.0R <. 3.0R)
let test_mul_eq = assert (2.0R *. 2.0R = 4.0R)
let test_mul_lt = assert (2.0R *. 2.0R <. 5.0R)
let test_div_eq = assert (8.0R /. 2.0R = 4.0R)
let test_div_lt = assert (8.0R /. 2.0R <. 5.0R)
let test_sqrt_2_mul = assert (sqrt_2 *. sqrt_2 = 2.0R)
//let test_sqrt_2_add = assert (sqrt_2 +. sqrt_2 >. 2.0R) // Fails
let test_sqrt_2_scale = assert (1.0R /. sqrt_2 = sqrt_2 /. 2.0R)
// Common identities
let add_id_l = assert (forall n. 0.0R +. n = n)
let add_id_r = assert (forall n. n +. 0.0R = n)
let mul_nil_l = assert (forall n. 0.0R *. n = 0.0R)
let mul_nil_r = assert (forall n. n *. 0.0R = 0.0R) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.l_Forall",
"FStar.Real.real",
"Prims.b2t",
"Prims.op_Equality",
"FStar.Real.op_Star_Dot"
] | [] | false | false | false | true | false | let mul_id_l =
| assert (forall n. 1.0R *. n = n) | false |
|
FStar.Real.fsti | FStar.Real.add_assoc | val add_assoc : Prims.unit | let add_assoc = assert (forall x y z. ((x +. y) +.z) = (x +. (y +. z))) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 71,
"end_line": 103,
"start_col": 0,
"start_line": 103
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R))
let test_gt1 = assert (~ (1.0R >. 2.0R))
let test_gt2 = assert (~ (1.0R >. 1.0R))
let test_gt3 = assert (2.0R >. 1.0R)
let test_ge1 = assert (~ (1.0R >=. 2.0R))
let test_ge2 = assert (1.0R >=. 1.0R)
let test_ge3 = assert (2.0R >=. 1.0R)
let test_add_eq = assert (1.0R +. 1.0R = 2.0R)
let test_add_eq' = assert (1.0R +. 3.0R = 4.0R)
let test_add_lt = assert (1.0R +. 1.0R <. 3.0R)
let test_mul_eq = assert (2.0R *. 2.0R = 4.0R)
let test_mul_lt = assert (2.0R *. 2.0R <. 5.0R)
let test_div_eq = assert (8.0R /. 2.0R = 4.0R)
let test_div_lt = assert (8.0R /. 2.0R <. 5.0R)
let test_sqrt_2_mul = assert (sqrt_2 *. sqrt_2 = 2.0R)
//let test_sqrt_2_add = assert (sqrt_2 +. sqrt_2 >. 2.0R) // Fails
let test_sqrt_2_scale = assert (1.0R /. sqrt_2 = sqrt_2 /. 2.0R)
// Common identities
let add_id_l = assert (forall n. 0.0R +. n = n)
let add_id_r = assert (forall n. n +. 0.0R = n)
let mul_nil_l = assert (forall n. 0.0R *. n = 0.0R)
let mul_nil_r = assert (forall n. n *. 0.0R = 0.0R)
let mul_id_l = assert (forall n. 1.0R *. n = n)
let mul_id_r = assert (forall n. n *. 1.0R = n) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.l_Forall",
"FStar.Real.real",
"Prims.b2t",
"Prims.op_Equality",
"FStar.Real.op_Plus_Dot"
] | [] | false | false | false | true | false | let add_assoc =
| assert (forall x y z. ((x +. y) +. z) = (x +. (y +. z))) | false |
|
FStar.Real.fsti | FStar.Real.test_sqrt_2_scale | val test_sqrt_2_scale : Prims.unit | let test_sqrt_2_scale = assert (1.0R /. sqrt_2 = sqrt_2 /. 2.0R) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 64,
"end_line": 90,
"start_col": 0,
"start_line": 90
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R))
let test_gt1 = assert (~ (1.0R >. 2.0R))
let test_gt2 = assert (~ (1.0R >. 1.0R))
let test_gt3 = assert (2.0R >. 1.0R)
let test_ge1 = assert (~ (1.0R >=. 2.0R))
let test_ge2 = assert (1.0R >=. 1.0R)
let test_ge3 = assert (2.0R >=. 1.0R)
let test_add_eq = assert (1.0R +. 1.0R = 2.0R)
let test_add_eq' = assert (1.0R +. 3.0R = 4.0R)
let test_add_lt = assert (1.0R +. 1.0R <. 3.0R)
let test_mul_eq = assert (2.0R *. 2.0R = 4.0R)
let test_mul_lt = assert (2.0R *. 2.0R <. 5.0R)
let test_div_eq = assert (8.0R /. 2.0R = 4.0R)
let test_div_lt = assert (8.0R /. 2.0R <. 5.0R)
let test_sqrt_2_mul = assert (sqrt_2 *. sqrt_2 = 2.0R) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.b2t",
"Prims.op_Equality",
"FStar.Real.real",
"FStar.Real.op_Slash_Dot",
"FStar.Real.sqrt_2"
] | [] | false | false | false | true | false | let test_sqrt_2_scale =
| assert (1.0R /. sqrt_2 = sqrt_2 /. 2.0R) | false |
|
FStar.Real.fsti | FStar.Real.add_comm | val add_comm : Prims.unit | let add_comm = assert (forall x y. x +. y = y +.x) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 50,
"end_line": 102,
"start_col": 0,
"start_line": 102
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R))
let test_gt1 = assert (~ (1.0R >. 2.0R))
let test_gt2 = assert (~ (1.0R >. 1.0R))
let test_gt3 = assert (2.0R >. 1.0R)
let test_ge1 = assert (~ (1.0R >=. 2.0R))
let test_ge2 = assert (1.0R >=. 1.0R)
let test_ge3 = assert (2.0R >=. 1.0R)
let test_add_eq = assert (1.0R +. 1.0R = 2.0R)
let test_add_eq' = assert (1.0R +. 3.0R = 4.0R)
let test_add_lt = assert (1.0R +. 1.0R <. 3.0R)
let test_mul_eq = assert (2.0R *. 2.0R = 4.0R)
let test_mul_lt = assert (2.0R *. 2.0R <. 5.0R)
let test_div_eq = assert (8.0R /. 2.0R = 4.0R)
let test_div_lt = assert (8.0R /. 2.0R <. 5.0R)
let test_sqrt_2_mul = assert (sqrt_2 *. sqrt_2 = 2.0R)
//let test_sqrt_2_add = assert (sqrt_2 +. sqrt_2 >. 2.0R) // Fails
let test_sqrt_2_scale = assert (1.0R /. sqrt_2 = sqrt_2 /. 2.0R)
// Common identities
let add_id_l = assert (forall n. 0.0R +. n = n)
let add_id_r = assert (forall n. n +. 0.0R = n)
let mul_nil_l = assert (forall n. 0.0R *. n = 0.0R)
let mul_nil_r = assert (forall n. n *. 0.0R = 0.0R)
let mul_id_l = assert (forall n. 1.0R *. n = n)
let mul_id_r = assert (forall n. n *. 1.0R = n) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.l_Forall",
"FStar.Real.real",
"Prims.b2t",
"Prims.op_Equality",
"FStar.Real.op_Plus_Dot"
] | [] | false | false | false | true | false | let add_comm =
| assert (forall x y. x +. y = y +. x) | false |
|
FStar.Real.fsti | FStar.Real.mul_dist | val mul_dist : Prims.unit | let mul_dist = assert (forall x y z. x *. (y +. z) = (x *. y) +. (x *.z)) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 73,
"end_line": 107,
"start_col": 0,
"start_line": 107
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R))
let test_gt1 = assert (~ (1.0R >. 2.0R))
let test_gt2 = assert (~ (1.0R >. 1.0R))
let test_gt3 = assert (2.0R >. 1.0R)
let test_ge1 = assert (~ (1.0R >=. 2.0R))
let test_ge2 = assert (1.0R >=. 1.0R)
let test_ge3 = assert (2.0R >=. 1.0R)
let test_add_eq = assert (1.0R +. 1.0R = 2.0R)
let test_add_eq' = assert (1.0R +. 3.0R = 4.0R)
let test_add_lt = assert (1.0R +. 1.0R <. 3.0R)
let test_mul_eq = assert (2.0R *. 2.0R = 4.0R)
let test_mul_lt = assert (2.0R *. 2.0R <. 5.0R)
let test_div_eq = assert (8.0R /. 2.0R = 4.0R)
let test_div_lt = assert (8.0R /. 2.0R <. 5.0R)
let test_sqrt_2_mul = assert (sqrt_2 *. sqrt_2 = 2.0R)
//let test_sqrt_2_add = assert (sqrt_2 +. sqrt_2 >. 2.0R) // Fails
let test_sqrt_2_scale = assert (1.0R /. sqrt_2 = sqrt_2 /. 2.0R)
// Common identities
let add_id_l = assert (forall n. 0.0R +. n = n)
let add_id_r = assert (forall n. n +. 0.0R = n)
let mul_nil_l = assert (forall n. 0.0R *. n = 0.0R)
let mul_nil_r = assert (forall n. n *. 0.0R = 0.0R)
let mul_id_l = assert (forall n. 1.0R *. n = n)
let mul_id_r = assert (forall n. n *. 1.0R = n)
let add_comm = assert (forall x y. x +. y = y +.x)
let add_assoc = assert (forall x y z. ((x +. y) +.z) = (x +. (y +. z)))
let mul_comm = assert (forall x y. x *. y = y *.x) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.l_Forall",
"FStar.Real.real",
"Prims.b2t",
"Prims.op_Equality",
"FStar.Real.op_Star_Dot",
"FStar.Real.op_Plus_Dot"
] | [] | false | false | false | true | false | let mul_dist =
| assert (forall x y z. x *. (y +. z) = (x *. y) +. (x *. z)) | false |
|
HoareDiv.fst | HoareDiv.subcomp | val subcomp
(a: Type)
(#req_f: Type0)
(ens_f: (a -> Type0))
(#req_g: Type0)
(ens_g: (a -> Type0))
(f: repr a req_f ens_f)
: Pure (repr a req_g ens_g)
(requires (req_g ==> req_f) /\ (forall (x: a). ens_f x ==> ens_g x))
(ensures fun _ -> True) | val subcomp
(a: Type)
(#req_f: Type0)
(ens_f: (a -> Type0))
(#req_g: Type0)
(ens_g: (a -> Type0))
(f: repr a req_f ens_f)
: Pure (repr a req_g ens_g)
(requires (req_g ==> req_f) /\ (forall (x: a). ens_f x ==> ens_g x))
(ensures fun _ -> True) | let subcomp (a:Type)
(#req_f:Type0) (ens_f:a -> Type0)
(#req_g:Type0) (ens_g:a -> Type0)
(f:repr a req_f ens_f)
: Pure (repr a req_g ens_g)
(requires
(req_g ==> req_f) /\
(forall (x:a). ens_f x ==> ens_g x))
(ensures fun _ -> True)
= f | {
"file_name": "examples/layeredeffects/HoareDiv.fst",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 3,
"end_line": 53,
"start_col": 0,
"start_line": 44
} | (*
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.
*)
module HoareDiv
/// A hoare style DIV effect (the specs are hoare triples rather than wp-based)
open FStar.Monotonic.Pure
type repr (a:Type) (req:Type0) (ens:a -> Type0) =
unit -> DIV a (as_pure_wp (fun p -> req /\ (forall (x:a). ens x ==> p x)))
let return (a:Type) (x:a)
: repr a True (fun r -> r == x)
= fun _ -> x
let bind (a:Type) (b:Type)
(req_f:Type0) (ens_f:a -> Type0)
(req_g:a -> Type0) (ens_g:a -> (b -> Type0))
(f:repr a req_f ens_f) (g:(x:a -> repr b (req_g x) (ens_g x)))
: repr b
(req_f /\ (forall (x:a). ens_f x ==> req_g x))
(fun y -> exists x. ens_f x /\ ens_g x y)
= fun _ ->
let x = f () in
g x ()
//the implicit markers on req_f and req_g don't mean much, | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Monotonic.Pure.fst.checked"
],
"interface_file": false,
"source_file": "HoareDiv.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Monotonic.Pure",
"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 -> ens_f: (_: a -> Type0) -> ens_g: (_: a -> Type0) -> f: HoareDiv.repr a req_f ens_f
-> Prims.Pure (HoareDiv.repr a req_g ens_g) | Prims.Pure | [] | [] | [
"HoareDiv.repr",
"Prims.l_and",
"Prims.l_imp",
"Prims.l_Forall",
"Prims.l_True"
] | [] | false | false | false | false | false | let subcomp
(a: Type)
(#req_f: Type0)
(ens_f: (a -> Type0))
(#req_g: Type0)
(ens_g: (a -> Type0))
(f: repr a req_f ens_f)
: Pure (repr a req_g ens_g)
(requires (req_g ==> req_f) /\ (forall (x: a). ens_f x ==> ens_g x))
(ensures fun _ -> True) =
| f | false |
CQueue.LList.fst | CQueue.LList.freeable | val freeable (#a: Type0) (c: cllist_ptrvalue a) : Tot prop | val freeable (#a: Type0) (c: cllist_ptrvalue a) : Tot prop | let freeable _ = True | {
"file_name": "share/steel/examples/steel/CQueue.LList.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 21,
"end_line": 138,
"start_col": 0,
"start_line": 138
} | module CQueue.LList
noeq
type cllist_ptrvalue (a: Type0) = {
head: ref (ccell_ptrvalue a);
tail: ref (ref (ccell_ptrvalue a));
all_or_none_null: squash (is_null head == is_null tail);
}
let cllist_ptrvalue_null a = {head = null; tail = null; all_or_none_null = ()}
let cllist_ptrvalue_is_null #a x = is_null x.head
let cllist_head #a c =
c.head
let cllist_tail #a c =
c.tail
#push-options "--ide_id_info_off"
let cllist0_refine
(#a: Type0)
(c: cllist_ptrvalue a)
(_: t_of emp)
: Tot prop
= cllist_ptrvalue_is_null c == false
// unfold
let cllist0_rewrite
(#a: Type0)
(c: cllist_ptrvalue a)
(_: t_of (emp `vrefine` cllist0_refine c))
: Tot (cllist_lvalue a)
= c
[@@ __steel_reduce__]
let cllist0 (a: Type0) (c: cllist_lvalue a) : Tot vprop =
(vptr (cllist_head c) `star` vptr (cllist_tail c))
// unfold
let cllist_rewrite
(#a: Type0)
(c: cllist_ptrvalue a)
(x: dtuple2 (cllist_lvalue a) (vdep_payload (emp `vrefine` cllist0_refine c `vrewrite` cllist0_rewrite c) (cllist0 a)))
: GTot (vllist a)
= let p =
dsnd #(cllist_lvalue a) #(vdep_payload (emp `vrefine` cllist0_refine c `vrewrite` cllist0_rewrite c) (cllist0 a)) x
in
{
vllist_head = fst p;
vllist_tail = snd p;
}
[@@ __steel_reduce__ ; __reduce__] // to avoid manual unfoldings through change_slprop
let cllist1
(#a: Type0)
(c: cllist_ptrvalue a)
: Tot vprop
= emp `vrefine` cllist0_refine c `vrewrite` cllist0_rewrite c `vdep` cllist0 a `vrewrite` cllist_rewrite c
let cllist_hp
#a c
= hp_of (cllist1 c)
let cllist_sel
#a c
= sel_of (cllist1 c)
let intro_cllist
#opened #a c
=
intro_vrefine emp (cllist0_refine c);
intro_vrewrite (emp `vrefine` cllist0_refine c) (cllist0_rewrite c);
reveal_star (vptr (cllist_head c)) (vptr (cllist_tail c));
intro_vdep
(emp `vrefine` cllist0_refine c `vrewrite` cllist0_rewrite c)
(vptr (cllist_head c) `star` vptr (cllist_tail c))
(cllist0 a);
intro_vrewrite
(emp `vrefine` cllist0_refine c `vrewrite` cllist0_rewrite c `vdep` cllist0 a)
(cllist_rewrite c);
change_slprop_rel
(cllist1 c)
(cllist c)
(fun x y -> x == y)
(fun m ->
assert_norm (hp_of (cllist1 c) == cllist_hp c);
assert_norm (sel_of (cllist1 c) m === sel_of (cllist c) m)
)
let elim_cllist_ghost
#opened #a c
=
change_slprop_rel
(cllist c)
(cllist1 c)
(fun x y -> x == y)
(fun m ->
assert_norm (hp_of (cllist1 c) == cllist_hp c);
assert_norm (sel_of (cllist1 c) m === sel_of (cllist c) m)
);
elim_vrewrite
(emp `vrefine` cllist0_refine c `vrewrite` cllist0_rewrite c `vdep` cllist0 a)
(cllist_rewrite c);
let c' : Ghost.erased (cllist_lvalue a) = elim_vdep
(emp `vrefine` cllist0_refine c `vrewrite` cllist0_rewrite c)
(cllist0 a)
in
elim_vrewrite (emp `vrefine` cllist0_refine c) (cllist0_rewrite c);
elim_vrefine emp (cllist0_refine c);
change_equal_slprop
(cllist0 a c')
(vptr (cllist_head (Ghost.reveal c')) `star` vptr (cllist_tail (Ghost.reveal c')));
reveal_star (vptr (cllist_head (Ghost.reveal c'))) (vptr (cllist_tail (Ghost.reveal c')));
c'
let elim_cllist
#opened #a c
=
let c2 = elim_cllist_ghost c in
let c : cllist_lvalue a = c in
change_equal_slprop (vptr (cllist_head c2)) (vptr (cllist_head c));
change_equal_slprop (vptr (cllist_tail c2)) (vptr (cllist_tail c));
return c
let cllist_not_null
#opened #a c
=
let c1 = elim_cllist_ghost c in
let c2 : cllist_lvalue a = c in
change_equal_slprop (vptr (cllist_head c1)) (vptr (cllist_head c2));
change_equal_slprop (vptr (cllist_tail c1)) (vptr (cllist_tail c2));
intro_cllist c2;
change_equal_slprop (cllist c2) (cllist c);
() | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": true,
"source_file": "CQueue.LList.fst"
} | [
{
"abbrev": false,
"full_module": "Steel.Reference",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.FractionalPermission",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Effect",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Effect.Atomic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "CQueue.Cell",
"short_module": null
},
{
"abbrev": false,
"full_module": "CQueue",
"short_module": null
},
{
"abbrev": false,
"full_module": "CQueue",
"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 | c: CQueue.LList.cllist_ptrvalue a -> Prims.prop | Prims.Tot | [
"total"
] | [] | [
"CQueue.LList.cllist_ptrvalue",
"Prims.l_True",
"Prims.prop"
] | [] | false | false | false | true | true | let freeable _ =
| True | false |
HoareDiv.fst | HoareDiv.bind | val bind
(a b: Type)
(req_f: Type0)
(ens_f req_g: (a -> Type0))
(ens_g: (a -> (b -> Type0)))
(f: repr a req_f ens_f)
(g: (x: a -> repr b (req_g x) (ens_g x)))
: repr b
(req_f /\ (forall (x: a). ens_f x ==> req_g x))
(fun y -> exists x. ens_f x /\ ens_g x y) | val bind
(a b: Type)
(req_f: Type0)
(ens_f req_g: (a -> Type0))
(ens_g: (a -> (b -> Type0)))
(f: repr a req_f ens_f)
(g: (x: a -> repr b (req_g x) (ens_g x)))
: repr b
(req_f /\ (forall (x: a). ens_f x ==> req_g x))
(fun y -> exists x. ens_f x /\ ens_g x y) | let bind (a:Type) (b:Type)
(req_f:Type0) (ens_f:a -> Type0)
(req_g:a -> Type0) (ens_g:a -> (b -> Type0))
(f:repr a req_f ens_f) (g:(x:a -> repr b (req_g x) (ens_g x)))
: repr b
(req_f /\ (forall (x:a). ens_f x ==> req_g x))
(fun y -> exists x. ens_f x /\ ens_g x y)
= fun _ ->
let x = f () in
g x () | {
"file_name": "examples/layeredeffects/HoareDiv.fst",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 8,
"end_line": 40,
"start_col": 0,
"start_line": 31
} | (*
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.
*)
module HoareDiv
/// A hoare style DIV effect (the specs are hoare triples rather than wp-based)
open FStar.Monotonic.Pure
type repr (a:Type) (req:Type0) (ens:a -> Type0) =
unit -> DIV a (as_pure_wp (fun p -> req /\ (forall (x:a). ens x ==> p x)))
let return (a:Type) (x:a)
: repr a True (fun r -> r == x)
= fun _ -> x | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Monotonic.Pure.fst.checked"
],
"interface_file": false,
"source_file": "HoareDiv.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Monotonic.Pure",
"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 ->
b: Type ->
req_f: Type0 ->
ens_f: (_: a -> Type0) ->
req_g: (_: a -> Type0) ->
ens_g: (_: a -> _: b -> Type0) ->
f: HoareDiv.repr a req_f ens_f ->
g: (x: a -> HoareDiv.repr b (req_g x) (ens_g x))
-> HoareDiv.repr b
(req_f /\ (forall (x: a). ens_f x ==> req_g x))
(fun y -> exists (x: a). ens_f x /\ ens_g x y) | Prims.Tot | [
"total"
] | [] | [
"HoareDiv.repr",
"Prims.unit",
"Prims.l_and",
"Prims.l_Forall",
"Prims.l_imp",
"Prims.l_Exists"
] | [] | false | false | false | false | false | let bind
(a b: Type)
(req_f: Type0)
(ens_f req_g: (a -> Type0))
(ens_g: (a -> (b -> Type0)))
(f: repr a req_f ens_f)
(g: (x: a -> repr b (req_g x) (ens_g x)))
: repr b
(req_f /\ (forall (x: a). ens_f x ==> req_g x))
(fun y -> exists x. ens_f x /\ ens_g x y) =
| fun _ ->
let x = f () in
g x () | false |
FStar.Real.fsti | FStar.Real.mul_id_r | val mul_id_r : Prims.unit | let mul_id_r = assert (forall n. n *. 1.0R = n) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 47,
"end_line": 100,
"start_col": 0,
"start_line": 100
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R))
let test_gt1 = assert (~ (1.0R >. 2.0R))
let test_gt2 = assert (~ (1.0R >. 1.0R))
let test_gt3 = assert (2.0R >. 1.0R)
let test_ge1 = assert (~ (1.0R >=. 2.0R))
let test_ge2 = assert (1.0R >=. 1.0R)
let test_ge3 = assert (2.0R >=. 1.0R)
let test_add_eq = assert (1.0R +. 1.0R = 2.0R)
let test_add_eq' = assert (1.0R +. 3.0R = 4.0R)
let test_add_lt = assert (1.0R +. 1.0R <. 3.0R)
let test_mul_eq = assert (2.0R *. 2.0R = 4.0R)
let test_mul_lt = assert (2.0R *. 2.0R <. 5.0R)
let test_div_eq = assert (8.0R /. 2.0R = 4.0R)
let test_div_lt = assert (8.0R /. 2.0R <. 5.0R)
let test_sqrt_2_mul = assert (sqrt_2 *. sqrt_2 = 2.0R)
//let test_sqrt_2_add = assert (sqrt_2 +. sqrt_2 >. 2.0R) // Fails
let test_sqrt_2_scale = assert (1.0R /. sqrt_2 = sqrt_2 /. 2.0R)
// Common identities
let add_id_l = assert (forall n. 0.0R +. n = n)
let add_id_r = assert (forall n. n +. 0.0R = n)
let mul_nil_l = assert (forall n. 0.0R *. n = 0.0R)
let mul_nil_r = assert (forall n. n *. 0.0R = 0.0R) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.l_Forall",
"FStar.Real.real",
"Prims.b2t",
"Prims.op_Equality",
"FStar.Real.op_Star_Dot"
] | [] | false | false | false | true | false | let mul_id_r =
| assert (forall n. n *. 1.0R = n) | false |
|
FStar.Real.fsti | FStar.Real.mul_comm | val mul_comm : Prims.unit | let mul_comm = assert (forall x y. x *. y = y *.x) | {
"file_name": "ulib/FStar.Real.fsti",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 50,
"end_line": 105,
"start_col": 0,
"start_line": 105
} | (*
Copyright 2008-2019 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.
*)
module FStar.Real
(*
This module provides a signature for real arithmetic.
Real number constants can be specific in floating point format with
an 'R' suffix, e.g., 1.0R
All these operations are mapped to the corresponding primitives
in Z3's theory of real arithmetic.
*)
val real : eqtype
val of_int : int -> Tot real
(**
Used to extract real constants; this function is
uninterpreted logically. i.e., 1.1R is extracted to
[of_string "1.1"]
*)
val of_string: string -> Tot real
val ( +. ) : real -> real -> Tot real
val ( -. ) : real -> real -> Tot real
val ( *. ) : real -> real -> Tot real
val ( /. ) : real -> d:real{d <> 0.0R} -> Tot real
val ( >. ) : real -> real -> Tot bool
val ( >=. ) : real -> real -> Tot bool
val ( <. ) : real -> real -> Tot bool
val ( <=. ) : real -> real -> Tot bool
#reset-options "--smtencoding.elim_box true --smtencoding.l_arith_repr native --smtencoding.nl_arith_repr native"
//Tests
let zero : real = of_int 0
let one : real = of_int 1
let two : real = of_int 2
val sqrt_2 : r:real{r *. r = two}
let n_over_n2 (n:real{n <> 0.0R /\ n*.n <> 0.0R}) = assert (n /. (n *. n) == 1.0R /. n)
let test = assert (two >. one)
let test1 = assert (one = 1.0R)
let test_lt1 = assert (1.0R <. 2.0R)
let test_lt2 = assert (~ (1.0R <. 1.0R))
let test_lt3 = assert (~ (2.0R <. 1.0R))
let test_le1 = assert (1.0R <=. 2.0R)
let test_le2 = assert (1.0R <=. 1.0R)
let test_le3 = assert (~ (2.0R <=. 1.0R))
let test_gt1 = assert (~ (1.0R >. 2.0R))
let test_gt2 = assert (~ (1.0R >. 1.0R))
let test_gt3 = assert (2.0R >. 1.0R)
let test_ge1 = assert (~ (1.0R >=. 2.0R))
let test_ge2 = assert (1.0R >=. 1.0R)
let test_ge3 = assert (2.0R >=. 1.0R)
let test_add_eq = assert (1.0R +. 1.0R = 2.0R)
let test_add_eq' = assert (1.0R +. 3.0R = 4.0R)
let test_add_lt = assert (1.0R +. 1.0R <. 3.0R)
let test_mul_eq = assert (2.0R *. 2.0R = 4.0R)
let test_mul_lt = assert (2.0R *. 2.0R <. 5.0R)
let test_div_eq = assert (8.0R /. 2.0R = 4.0R)
let test_div_lt = assert (8.0R /. 2.0R <. 5.0R)
let test_sqrt_2_mul = assert (sqrt_2 *. sqrt_2 = 2.0R)
//let test_sqrt_2_add = assert (sqrt_2 +. sqrt_2 >. 2.0R) // Fails
let test_sqrt_2_scale = assert (1.0R /. sqrt_2 = sqrt_2 /. 2.0R)
// Common identities
let add_id_l = assert (forall n. 0.0R +. n = n)
let add_id_r = assert (forall n. n +. 0.0R = n)
let mul_nil_l = assert (forall n. 0.0R *. n = 0.0R)
let mul_nil_r = assert (forall n. n *. 0.0R = 0.0R)
let mul_id_l = assert (forall n. 1.0R *. n = n)
let mul_id_r = assert (forall n. n *. 1.0R = n)
let add_comm = assert (forall x y. x +. y = y +.x)
let add_assoc = assert (forall x y z. ((x +. y) +.z) = (x +. (y +. z))) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Real.fsti"
} | [
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"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": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "native",
"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 | Prims.unit | Prims.Tot | [
"total"
] | [] | [
"Prims._assert",
"Prims.l_Forall",
"FStar.Real.real",
"Prims.b2t",
"Prims.op_Equality",
"FStar.Real.op_Star_Dot"
] | [] | false | false | false | true | false | let mul_comm =
| assert (forall x y. x *. y = y *. x) | false |
|
CQueue.LList.fst | CQueue.LList.cllist_sel | val cllist_sel
(#a: Type0)
(c: cllist_ptrvalue a)
: GTot (selector (vllist a) (cllist_hp c)) | val cllist_sel
(#a: Type0)
(c: cllist_ptrvalue a)
: GTot (selector (vllist a) (cllist_hp c)) | let cllist_sel
#a c
= sel_of (cllist1 c) | {
"file_name": "share/steel/examples/steel/CQueue.LList.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 20,
"end_line": 68,
"start_col": 0,
"start_line": 66
} | module CQueue.LList
noeq
type cllist_ptrvalue (a: Type0) = {
head: ref (ccell_ptrvalue a);
tail: ref (ref (ccell_ptrvalue a));
all_or_none_null: squash (is_null head == is_null tail);
}
let cllist_ptrvalue_null a = {head = null; tail = null; all_or_none_null = ()}
let cllist_ptrvalue_is_null #a x = is_null x.head
let cllist_head #a c =
c.head
let cllist_tail #a c =
c.tail
#push-options "--ide_id_info_off"
let cllist0_refine
(#a: Type0)
(c: cllist_ptrvalue a)
(_: t_of emp)
: Tot prop
= cllist_ptrvalue_is_null c == false
// unfold
let cllist0_rewrite
(#a: Type0)
(c: cllist_ptrvalue a)
(_: t_of (emp `vrefine` cllist0_refine c))
: Tot (cllist_lvalue a)
= c
[@@ __steel_reduce__]
let cllist0 (a: Type0) (c: cllist_lvalue a) : Tot vprop =
(vptr (cllist_head c) `star` vptr (cllist_tail c))
// unfold
let cllist_rewrite
(#a: Type0)
(c: cllist_ptrvalue a)
(x: dtuple2 (cllist_lvalue a) (vdep_payload (emp `vrefine` cllist0_refine c `vrewrite` cllist0_rewrite c) (cllist0 a)))
: GTot (vllist a)
= let p =
dsnd #(cllist_lvalue a) #(vdep_payload (emp `vrefine` cllist0_refine c `vrewrite` cllist0_rewrite c) (cllist0 a)) x
in
{
vllist_head = fst p;
vllist_tail = snd p;
}
[@@ __steel_reduce__ ; __reduce__] // to avoid manual unfoldings through change_slprop
let cllist1
(#a: Type0)
(c: cllist_ptrvalue a)
: Tot vprop
= emp `vrefine` cllist0_refine c `vrewrite` cllist0_rewrite c `vdep` cllist0 a `vrewrite` cllist_rewrite c
let cllist_hp
#a c
= hp_of (cllist1 c) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": true,
"source_file": "CQueue.LList.fst"
} | [
{
"abbrev": false,
"full_module": "Steel.Reference",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.FractionalPermission",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Effect",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Effect.Atomic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "CQueue.Cell",
"short_module": null
},
{
"abbrev": false,
"full_module": "CQueue",
"short_module": null
},
{
"abbrev": false,
"full_module": "CQueue",
"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 | c: CQueue.LList.cllist_ptrvalue a
-> Prims.GTot (Steel.Effect.Common.selector (CQueue.LList.vllist a) (CQueue.LList.cllist_hp c)) | Prims.GTot | [
"sometrivial"
] | [] | [
"CQueue.LList.cllist_ptrvalue",
"Steel.Effect.Common.sel_of",
"CQueue.LList.cllist1",
"Steel.Effect.Common.selector",
"CQueue.LList.vllist",
"CQueue.LList.cllist_hp"
] | [] | false | false | false | false | false | let cllist_sel #a c =
| sel_of (cllist1 c) | false |
HoareDiv.fst | HoareDiv.lift_pure_meff | val lift_pure_meff (a: Type) (wp: pure_wp a) (f: (unit -> PURE a wp))
: repr a (wp (fun _ -> True)) (fun x -> ~(wp (fun r -> r =!= x))) | val lift_pure_meff (a: Type) (wp: pure_wp a) (f: (unit -> PURE a wp))
: repr a (wp (fun _ -> True)) (fun x -> ~(wp (fun r -> r =!= x))) | let lift_pure_meff (a:Type) (wp:pure_wp a) (f:unit -> PURE a wp)
: repr a
(wp (fun _ -> True))
(fun x -> ~ (wp (fun r -> r =!= x)))
= FStar.Monotonic.Pure.elim_pure_wp_monotonicity wp;
fun _ -> f () | {
"file_name": "examples/layeredeffects/HoareDiv.fst",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 15,
"end_line": 78,
"start_col": 0,
"start_line": 73
} | (*
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.
*)
module HoareDiv
/// A hoare style DIV effect (the specs are hoare triples rather than wp-based)
open FStar.Monotonic.Pure
type repr (a:Type) (req:Type0) (ens:a -> Type0) =
unit -> DIV a (as_pure_wp (fun p -> req /\ (forall (x:a). ens x ==> p x)))
let return (a:Type) (x:a)
: repr a True (fun r -> r == x)
= fun _ -> x
let bind (a:Type) (b:Type)
(req_f:Type0) (ens_f:a -> Type0)
(req_g:a -> Type0) (ens_g:a -> (b -> Type0))
(f:repr a req_f ens_f) (g:(x:a -> repr b (req_g x) (ens_g x)))
: repr b
(req_f /\ (forall (x:a). ens_f x ==> req_g x))
(fun y -> exists x. ens_f x /\ ens_g x y)
= fun _ ->
let x = f () in
g x ()
//the implicit markers on req_f and req_g don't mean much,
//just testing that we support marking some arguments as implicit
let subcomp (a:Type)
(#req_f:Type0) (ens_f:a -> Type0)
(#req_g:Type0) (ens_g:a -> Type0)
(f:repr a req_f ens_f)
: Pure (repr a req_g ens_g)
(requires
(req_g ==> req_f) /\
(forall (x:a). ens_f x ==> ens_g x))
(ensures fun _ -> True)
= f
let if_then_else (a:Type)
(req_then:Type0) (ens_then:a -> Type0)
(req_else:Type0) (ens_else:a -> Type0)
(f:repr a req_then ens_then) (g:repr a req_else ens_else)
(p:bool)
: Type
= repr a
((p ==> req_then) /\ ((~ p) ==> req_else))
(fun x -> (p ==> ens_then x) /\ ((~ p) ==> ens_else x))
reifiable
reflectable
effect {
HoareDiv (a:Type) (req:Type0) (ens:a -> Type0)
with {repr; return; bind; subcomp; if_then_else}
} | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Monotonic.Pure.fst.checked"
],
"interface_file": false,
"source_file": "HoareDiv.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Monotonic.Pure",
"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 -> wp: Prims.pure_wp a -> f: (_: Prims.unit -> Prims.PURE a)
-> HoareDiv.repr a (wp (fun _ -> Prims.l_True)) (fun x -> ~(wp (fun r -> ~(r == x)))) | Prims.Tot | [
"total"
] | [] | [
"Prims.pure_wp",
"Prims.unit",
"FStar.Monotonic.Pure.elim_pure_wp_monotonicity",
"HoareDiv.repr",
"Prims.l_True",
"Prims.l_not",
"Prims.eq2"
] | [] | false | false | false | false | false | let lift_pure_meff (a: Type) (wp: pure_wp a) (f: (unit -> PURE a wp))
: repr a (wp (fun _ -> True)) (fun x -> ~(wp (fun r -> r =!= x))) =
| FStar.Monotonic.Pure.elim_pure_wp_monotonicity wp;
fun _ -> f () | false |
Hacl.Spec.Curve25519.AddAndDouble.fst | Hacl.Spec.Curve25519.AddAndDouble.add_and_double1_0 | val add_and_double1_0 : a: Spec.Curve25519.elem ->
b: Spec.Curve25519.elem ->
nqp1: (Spec.Curve25519.elem * Spec.Curve25519.elem)
-> Spec.Curve25519.elem * Spec.Curve25519.elem | let add_and_double1_0 a b nqp1 =
let x_3, z_3 = nqp1 in
let c = x_3 +% z_3 in
let d = x_3 -% z_3 in
let da = d *% a in
let cb = c *% b in
let x_3 = da +% cb in
let z_3 = da -% cb in
(x_3, z_3) | {
"file_name": "code/curve25519/Hacl.Spec.Curve25519.AddAndDouble.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 12,
"end_line": 16,
"start_col": 0,
"start_line": 7
} | module Hacl.Spec.Curve25519.AddAndDouble
open FStar.Mul
open Lib.IntTypes
open Spec.Curve25519 | {
"checked_file": "/",
"dependencies": [
"Spec.Curve25519.fst.checked",
"prims.fst.checked",
"Lib.LoopCombinators.fsti.checked",
"Lib.IntTypes.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked"
],
"interface_file": false,
"source_file": "Hacl.Spec.Curve25519.AddAndDouble.fst"
} | [
{
"abbrev": false,
"full_module": "Spec.Curve25519",
"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": "Hacl.Spec.Curve25519",
"short_module": null
},
{
"abbrev": false,
"full_module": "Hacl.Spec.Curve25519",
"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": false,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
a: Spec.Curve25519.elem ->
b: Spec.Curve25519.elem ->
nqp1: (Spec.Curve25519.elem * Spec.Curve25519.elem)
-> Spec.Curve25519.elem * Spec.Curve25519.elem | Prims.Tot | [
"total"
] | [] | [
"Spec.Curve25519.elem",
"FStar.Pervasives.Native.tuple2",
"FStar.Pervasives.Native.Mktuple2",
"Spec.Curve25519.op_Subtraction_Percent",
"Spec.Curve25519.op_Plus_Percent",
"Spec.Curve25519.op_Star_Percent"
] | [] | false | false | false | true | false | let add_and_double1_0 a b nqp1 =
| let x_3, z_3 = nqp1 in
let c = x_3 +% z_3 in
let d = x_3 -% z_3 in
let da = d *% a in
let cb = c *% b in
let x_3 = da +% cb in
let z_3 = da -% cb in
(x_3, z_3) | false |
|
Hacl.Spec.Curve25519.AddAndDouble.fst | Hacl.Spec.Curve25519.AddAndDouble.add_and_double1 | val add_and_double1 : q: (Spec.Curve25519.elem * _) ->
nq: (Spec.Curve25519.elem * Spec.Curve25519.elem) ->
nqp1: (Spec.Curve25519.elem * Spec.Curve25519.elem)
-> (Spec.Curve25519.elem * Spec.Curve25519.elem) * (Spec.Curve25519.elem * Spec.Curve25519.elem) | let add_and_double1 q nq nqp1 =
let x_1, z_1 = q in
let x_2, z_2 = nq in
let a = x_2 +% z_2 in
let b = x_2 -% z_2 in
let nqp1 = add_and_double1_0 a b nqp1 in
let (x_2, z_2), (x_3, z_3) = add_and_double1_1 a b nqp1 in
let z_3 = z_3 *% x_1 in
(x_2, z_2), (x_3, z_3) | {
"file_name": "code/curve25519/Hacl.Spec.Curve25519.AddAndDouble.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 24,
"end_line": 41,
"start_col": 0,
"start_line": 33
} | module Hacl.Spec.Curve25519.AddAndDouble
open FStar.Mul
open Lib.IntTypes
open Spec.Curve25519
let add_and_double1_0 a b nqp1 =
let x_3, z_3 = nqp1 in
let c = x_3 +% z_3 in
let d = x_3 -% z_3 in
let da = d *% a in
let cb = c *% b in
let x_3 = da +% cb in
let z_3 = da -% cb in
(x_3, z_3)
let add_and_double1_1 a b nqp1 =
let x_3, z_3 = nqp1 in
let aa = a *% a in
let bb = b *% b in
let x_3 = x_3 *% x_3 in
let z_3 = z_3 *% z_3 in
let e = aa -% bb in
let e121665 = e *% 121665 in
let aa_e121665 = e121665 +% aa in
let x_2 = aa *% bb in
let z_2 = e *% aa_e121665 in
(x_2, z_2), (x_3, z_3) | {
"checked_file": "/",
"dependencies": [
"Spec.Curve25519.fst.checked",
"prims.fst.checked",
"Lib.LoopCombinators.fsti.checked",
"Lib.IntTypes.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked"
],
"interface_file": false,
"source_file": "Hacl.Spec.Curve25519.AddAndDouble.fst"
} | [
{
"abbrev": false,
"full_module": "Spec.Curve25519",
"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": "Hacl.Spec.Curve25519",
"short_module": null
},
{
"abbrev": false,
"full_module": "Hacl.Spec.Curve25519",
"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": false,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
q: (Spec.Curve25519.elem * _) ->
nq: (Spec.Curve25519.elem * Spec.Curve25519.elem) ->
nqp1: (Spec.Curve25519.elem * Spec.Curve25519.elem)
-> (Spec.Curve25519.elem * Spec.Curve25519.elem) * (Spec.Curve25519.elem * Spec.Curve25519.elem) | Prims.Tot | [
"total"
] | [] | [
"FStar.Pervasives.Native.tuple2",
"Spec.Curve25519.elem",
"FStar.Pervasives.Native.Mktuple2",
"Spec.Curve25519.op_Star_Percent",
"Hacl.Spec.Curve25519.AddAndDouble.add_and_double1_1",
"Hacl.Spec.Curve25519.AddAndDouble.add_and_double1_0",
"Spec.Curve25519.op_Subtraction_Percent",
"Spec.Curve25519.op_Plus_Percent"
] | [] | false | false | false | true | false | let add_and_double1 q nq nqp1 =
| let x_1, z_1 = q in
let x_2, z_2 = nq in
let a = x_2 +% z_2 in
let b = x_2 -% z_2 in
let nqp1 = add_and_double1_0 a b nqp1 in
let (x_2, z_2), (x_3, z_3) = add_and_double1_1 a b nqp1 in
let z_3 = z_3 *% x_1 in
(x_2, z_2), (x_3, z_3) | false |
|
Hacl.Spec.Curve25519.AddAndDouble.fst | Hacl.Spec.Curve25519.AddAndDouble.montgomery_ladder1_1 | val montgomery_ladder1_1 : nq: Spec.Curve25519.proj_point -> Spec.Curve25519.elem * Spec.Curve25519.elem | let montgomery_ladder1_1 (nq:proj_point) =
let nq = double nq in
let nq = double nq in
let nq = double nq in
nq | {
"file_name": "code/curve25519/Hacl.Spec.Curve25519.AddAndDouble.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 4,
"end_line": 61,
"start_col": 0,
"start_line": 57
} | module Hacl.Spec.Curve25519.AddAndDouble
open FStar.Mul
open Lib.IntTypes
open Spec.Curve25519
let add_and_double1_0 a b nqp1 =
let x_3, z_3 = nqp1 in
let c = x_3 +% z_3 in
let d = x_3 -% z_3 in
let da = d *% a in
let cb = c *% b in
let x_3 = da +% cb in
let z_3 = da -% cb in
(x_3, z_3)
let add_and_double1_1 a b nqp1 =
let x_3, z_3 = nqp1 in
let aa = a *% a in
let bb = b *% b in
let x_3 = x_3 *% x_3 in
let z_3 = z_3 *% z_3 in
let e = aa -% bb in
let e121665 = e *% 121665 in
let aa_e121665 = e121665 +% aa in
let x_2 = aa *% bb in
let z_2 = e *% aa_e121665 in
(x_2, z_2), (x_3, z_3)
let add_and_double1 q nq nqp1 =
let x_1, z_1 = q in
let x_2, z_2 = nq in
let a = x_2 +% z_2 in
let b = x_2 -% z_2 in
let nqp1 = add_and_double1_0 a b nqp1 in
let (x_2, z_2), (x_3, z_3) = add_and_double1_1 a b nqp1 in
let z_3 = z_3 *% x_1 in
(x_2, z_2), (x_3, z_3)
val lemma_add_and_double: q:proj_point -> nq:proj_point -> nqp1:proj_point ->
Lemma (add_and_double1 q nq nqp1 == add_and_double q nq nqp1)
let lemma_add_and_double q nq nqp1 = ()
let montgomery_ladder1_0 (k:scalar) (q:proj_point) (nq:proj_point) (nqp1:proj_point) =
// bit 255 is 0 and bit 254 is 1
let nq,nqp1 = cswap2 (u64 1) nq nqp1 in
let nq,nqp1 = add_and_double q nq nqp1 in
let swap = u64 1 in
let nq,nqp1,swap = Lib.LoopCombinators.repeati 251 (ladder_step k q) (nq, nqp1, swap) in
let nq,nqp1 = cswap2 swap nq nqp1 in
nq | {
"checked_file": "/",
"dependencies": [
"Spec.Curve25519.fst.checked",
"prims.fst.checked",
"Lib.LoopCombinators.fsti.checked",
"Lib.IntTypes.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked"
],
"interface_file": false,
"source_file": "Hacl.Spec.Curve25519.AddAndDouble.fst"
} | [
{
"abbrev": false,
"full_module": "Spec.Curve25519",
"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": "Hacl.Spec.Curve25519",
"short_module": null
},
{
"abbrev": false,
"full_module": "Hacl.Spec.Curve25519",
"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": false,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | nq: Spec.Curve25519.proj_point -> Spec.Curve25519.elem * Spec.Curve25519.elem | Prims.Tot | [
"total"
] | [] | [
"Spec.Curve25519.proj_point",
"FStar.Pervasives.Native.tuple2",
"Spec.Curve25519.elem",
"Spec.Curve25519.double"
] | [] | false | false | false | true | false | let montgomery_ladder1_1 (nq: proj_point) =
| let nq = double nq in
let nq = double nq in
let nq = double nq in
nq | false |
|
Vale.AES.X64.AESopt.fst | Vale.AES.X64.AESopt.va_lemma_Loop6x_save_output | val va_lemma_Loop6x_save_output : va_b0:va_code -> va_s0:va_state -> count:nat -> out_b:buffer128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_save_output ()) va_s0 /\ va_get_ok va_s0 /\
(avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6
va_s0) (va_get_reg64 rRsi va_s0 - 96) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0)
Secret)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0)
(va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\
FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.buffer128_as_seq
(va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice
#Vale.X64.Decls.quad32 (Vale.X64.Decls.buffer128_as_seq (va_get_mem_heaplet 6 va_s0) out_b) 0
(6 `op_Multiply` count) /\ (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0,
va_get_xmm 12 va_s0, va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == make_six_of #quad32 (fun
(i:(va_int_range 0 5)) -> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + i)
(va_get_mem_heaplet 6 va_sM)) /\ (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM,
va_get_xmm 12 va_sM, va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == (Vale.Def.Types_s.quad32_xor
(va_get_xmm 1 va_sM) (va_get_xmm 15 va_sM), va_get_xmm 0 va_sM, va_get_xmm 5 va_sM, va_get_xmm
6 va_sM, va_get_xmm 7 va_sM, va_get_xmm 3 va_sM)) /\ va_state_eq va_sM (va_update_flags va_sM
(va_update_mem_heaplet 6 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm
12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok
va_sM (va_update_mem va_sM va_s0)))))))))))) | val va_lemma_Loop6x_save_output : va_b0:va_code -> va_s0:va_state -> count:nat -> out_b:buffer128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_save_output ()) va_s0 /\ va_get_ok va_s0 /\
(avx_enabled /\ sse_enabled /\ Vale.X64.Decls.validDstAddrsOffset128 (va_get_mem_heaplet 6
va_s0) (va_get_reg64 rRsi va_s0 - 96) out_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0)
Secret)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0)
(va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5) /\
FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.buffer128_as_seq
(va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice
#Vale.X64.Decls.quad32 (Vale.X64.Decls.buffer128_as_seq (va_get_mem_heaplet 6 va_s0) out_b) 0
(6 `op_Multiply` count) /\ (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0,
va_get_xmm 12 va_s0, va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == make_six_of #quad32 (fun
(i:(va_int_range 0 5)) -> Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + i)
(va_get_mem_heaplet 6 va_sM)) /\ (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM,
va_get_xmm 12 va_sM, va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == (Vale.Def.Types_s.quad32_xor
(va_get_xmm 1 va_sM) (va_get_xmm 15 va_sM), va_get_xmm 0 va_sM, va_get_xmm 5 va_sM, va_get_xmm
6 va_sM, va_get_xmm 7 va_sM, va_get_xmm 3 va_sM)) /\ va_state_eq va_sM (va_update_flags va_sM
(va_update_mem_heaplet 6 va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm
12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok
va_sM (va_update_mem va_sM va_s0)))))))))))) | let va_lemma_Loop6x_save_output va_b0 va_s0 count out_b =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_ok; va_Mod_mem] in
let va_qc = va_qcode_Loop6x_save_output va_mods count out_b in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_save_output ()) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 712 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (label va_range1
"***** POSTCONDITION NOT MET AT line 737 column 84 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 out_b (va_get_mem_heaplet 6 va_s0)
(va_get_mem_heaplet 6 va_sM) (count `op_Multiply` 6 + 0) (count `op_Multiply` 6 + 5)) /\ label
va_range1
"***** POSTCONDITION NOT MET AT line 738 column 120 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(FStar.Seq.Base.slice #Vale.X64.Decls.quad32 (Vale.X64.Decls.buffer128_as_seq
(va_get_mem_heaplet 6 va_sM) out_b) 0 (6 `op_Multiply` count) == FStar.Seq.Base.slice
#Vale.X64.Decls.quad32 (Vale.X64.Decls.buffer128_as_seq (va_get_mem_heaplet 6 va_s0) out_b) 0
(6 `op_Multiply` count)) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 740 column 92 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0, va_get_xmm
13 va_s0, va_get_xmm 14 va_s0) == make_six_of #quad32 (fun (i:(va_int_range 0 5)) ->
Vale.X64.Decls.buffer128_read out_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_sM)))
/\ label va_range1
"***** POSTCONDITION NOT MET AT line 742 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == (Vale.Def.Types_s.quad32_xor (va_get_xmm 1 va_sM) (va_get_xmm
15 va_sM), va_get_xmm 0 va_sM, va_get_xmm 5 va_sM, va_get_xmm 6 va_sM, va_get_xmm 7 va_sM,
va_get_xmm 3 va_sM)))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm
12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_ok; va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM) | {
"file_name": "obj/Vale.AES.X64.AESopt.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 16,
"end_line": 1794,
"start_col": 0,
"start_line": 1764
} | module Vale.AES.X64.AESopt
open FStar.Mul
open Vale.Def.Prop_s
open Vale.Def.Opaque_s
open Vale.Def.Words_s
open Vale.Def.Types_s
open FStar.Seq
open Vale.Arch.Types
open Vale.Arch.HeapImpl
open Vale.AES.AES_s
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.InsVector
open Vale.X64.InsAes
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.AES.AES_helpers
//open Vale.Poly1305.Math // For lemma_poly_bits64()
open Vale.AES.GCM_helpers
open Vale.AES.GCTR_s
open Vale.AES.GCTR
open Vale.Arch.TypesNative
open Vale.X64.CPU_Features_s
open Vale.Math.Poly2_s
open Vale.AES.GF128_s
open Vale.AES.GF128
open Vale.AES.GHash
open Vale.AES.X64.PolyOps
open Vale.AES.X64.AESopt2
open Vale.AES.X64.AESGCM_expected_code
open Vale.Transformers.Transform
open FStar.Mul
let add = Vale.Math.Poly2_s.add
#reset-options "--z3rlimit 30"
//-- finish_aes_encrypt_le
val finish_aes_encrypt_le : alg:algorithm -> input_LE:quad32 -> key:(seq nat32)
-> Lemma
(requires (Vale.AES.AES_s.is_aes_key_LE alg key))
(ensures (Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg
input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)))
let finish_aes_encrypt_le alg input_LE key =
Vale.AES.AES_s.aes_encrypt_LE_reveal ();
Vale.AES.AES_s.eval_cipher_reveal ();
()
//--
//-- Load_two_lsb
[@ "opaque_to_smt"]
let va_code_Load_two_lsb dst =
(va_Block (va_CCons (va_code_ZeroXmm dst) (va_CCons (va_code_PinsrqImm dst 2 0
(va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
[@ "opaque_to_smt"]
let va_codegen_success_Load_two_lsb dst =
(va_pbool_and (va_codegen_success_ZeroXmm dst) (va_pbool_and (va_codegen_success_PinsrqImm dst 2
0 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ())))
[@"opaque_to_smt"]
let va_lemma_Load_two_lsb va_b0 va_s0 dst =
va_reveal_opaque (`%va_code_Load_two_lsb) (va_code_Load_two_lsb dst);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s3, va_fc3) = va_lemma_ZeroXmm (va_hd va_b1) va_s0 dst in
let va_b3 = va_tl va_b1 in
Vale.Arch.Types.lemma_insert_nat64_nat32s (va_eval_xmm va_s3 dst) 2 0;
assert (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 2 0) == 2);
let (va_s6, va_fc6) = va_lemma_PinsrqImm (va_hd va_b3) va_s3 dst 2 0 (va_op_reg_opr64_reg64 rR11)
in
let va_b6 = va_tl va_b3 in
let (va_sM, va_f6) = va_lemma_empty_total va_s6 va_b6 in
let va_f3 = va_lemma_merge_total va_b3 va_s3 va_fc6 va_s6 va_f6 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc3 va_s3 va_f3 va_sM in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Load_two_lsb dst va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_two_lsb (va_code_Load_two_lsb dst) va_s0 dst in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Load_0xc2_msb
val va_code_Load_0xc2_msb : dst:va_operand_xmm -> Tot va_code
[@ "opaque_to_smt"]
let va_code_Load_0xc2_msb dst =
(va_Block (va_CCons (va_code_ZeroXmm dst) (va_CCons (va_code_PinsrqImm dst 13979173243358019584 1
(va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
val va_codegen_success_Load_0xc2_msb : dst:va_operand_xmm -> Tot va_pbool
[@ "opaque_to_smt"]
let va_codegen_success_Load_0xc2_msb dst =
(va_pbool_and (va_codegen_success_ZeroXmm dst) (va_pbool_and (va_codegen_success_PinsrqImm dst
13979173243358019584 1 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ())))
val va_lemma_Load_0xc2_msb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load_0xc2_msb dst) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 3254779904 /\
va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))))
[@"opaque_to_smt"]
let va_lemma_Load_0xc2_msb va_b0 va_s0 dst =
va_reveal_opaque (`%va_code_Load_0xc2_msb) (va_code_Load_0xc2_msb dst);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s3, va_fc3) = va_lemma_ZeroXmm (va_hd va_b1) va_s0 dst in
let va_b3 = va_tl va_b1 in
assert (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 0
3254779904) == 13979173243358019584);
Vale.Arch.Types.lemma_insert_nat64_nat32s (va_eval_xmm va_s3 dst) 0 3254779904;
let (va_s6, va_fc6) = va_lemma_PinsrqImm (va_hd va_b3) va_s3 dst 13979173243358019584 1
(va_op_reg_opr64_reg64 rR11) in
let va_b6 = va_tl va_b3 in
let (va_sM, va_f6) = va_lemma_empty_total va_s6 va_b6 in
let va_f3 = va_lemma_merge_total va_b3 va_s3 va_fc6 va_s6 va_f6 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc3 va_s3 va_f3 va_sM in
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Load_0xc2_msb (dst:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_dst:va_value_xmm)
(va_x_r11:nat64) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_reg64
rR11 va_x_r11 (va_upd_operand_xmm dst va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM
dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 3254779904 ==> va_k va_sM (())))
val va_wpProof_Load_0xc2_msb : dst:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit ->
Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Load_0xc2_msb dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load_0xc2_msb dst) ([va_Mod_flags;
va_Mod_reg64 rR11; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Load_0xc2_msb dst va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_0xc2_msb (va_code_Load_0xc2_msb dst) va_s0 dst in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Load_0xc2_msb (dst:va_operand_xmm) : (va_quickCode unit (va_code_Load_0xc2_msb dst)) =
(va_QProc (va_code_Load_0xc2_msb dst) ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst])
(va_wp_Load_0xc2_msb dst) (va_wpProof_Load_0xc2_msb dst))
//--
//-- Load_one_lsb
[@ "opaque_to_smt"]
let va_code_Load_one_lsb dst =
(va_Block (va_CCons (va_code_ZeroXmm dst) (va_CCons (va_code_PinsrqImm dst 1 0
(va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
[@ "opaque_to_smt"]
let va_codegen_success_Load_one_lsb dst =
(va_pbool_and (va_codegen_success_ZeroXmm dst) (va_pbool_and (va_codegen_success_PinsrqImm dst 1
0 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ())))
[@"opaque_to_smt"]
let va_lemma_Load_one_lsb va_b0 va_s0 dst =
va_reveal_opaque (`%va_code_Load_one_lsb) (va_code_Load_one_lsb dst);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s3, va_fc3) = va_lemma_ZeroXmm (va_hd va_b1) va_s0 dst in
let va_b3 = va_tl va_b1 in
Vale.Arch.Types.lemma_insert_nat64_nat32s (va_eval_xmm va_s3 dst) 1 0;
assert (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 1 0) == 1);
let (va_s6, va_fc6) = va_lemma_PinsrqImm (va_hd va_b3) va_s3 dst 1 0 (va_op_reg_opr64_reg64 rR11)
in
let va_b6 = va_tl va_b3 in
let (va_sM, va_f6) = va_lemma_empty_total va_s6 va_b6 in
let va_f3 = va_lemma_merge_total va_b3 va_s3 va_fc6 va_s6 va_f6 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc3 va_s3 va_f3 va_sM in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Load_one_lsb dst va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_one_lsb (va_code_Load_one_lsb dst) va_s0 dst in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Handle_ctr32
val va_code_Handle_ctr32 : va_dummy:unit -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Handle_ctr32 () =
(va_Block (va_CCons (va_code_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR11))
(va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons
(va_code_Load_one_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10)
(va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_Load_two_lsb (va_op_xmm_xmm 5))
(va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CNil
()))))))))))))))))))))
val va_codegen_success_Handle_ctr32 : va_dummy:unit -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Handle_ctr32 () =
(va_pbool_and (va_codegen_success_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR11))
(va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm
0)) (va_pbool_and (va_codegen_success_Load_one_lsb (va_op_xmm_xmm 5)) (va_pbool_and
(va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5))
(va_pbool_and (va_codegen_success_Load_two_lsb (va_op_xmm_xmm 5)) (va_pbool_and
(va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5))
(va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm
5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10)
(va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm
11) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm
10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_pbool_and (va_codegen_success_VPaddd
(va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_pbool_and
(va_codegen_success_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0))
(va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm
15)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13)
(va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm
13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 14)
(va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm
1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_ttrue ())))))))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Handle_ctr32 (va_mods:va_mods_t) (ctr_BE:quad32) : (va_quickCode unit
(va_code_Handle_ctr32 ())) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 256 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR11)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 257 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 261 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load_one_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 262 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 263 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load_two_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 264 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 265 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 266 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 267 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 268 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 269 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 270 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 271 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 272 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 273 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 274 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 275 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 276 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QEmpty
(())))))))))))))))))))))
val va_lemma_Handle_ctr32 : va_b0:va_code -> va_s0:va_state -> ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Handle_ctr32 ()) va_s0 /\ va_get_ok va_s0 /\
(avx_enabled /\ sse_enabled /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32
ctr_BE)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM, va_get_xmm
14 va_sM, va_get_xmm 1 va_sM) == xor_reverse_inc32lite_6 2 1 ctr_BE (va_get_xmm 15 va_sM) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM
(va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM
(va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Handle_ctr32 va_b0 va_s0 ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm
11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR11; va_Mod_ok] in
let va_qc = va_qcode_Handle_ctr32 va_mods ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Handle_ctr32 ()) va_qc va_s0 (fun va_s0
va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 234 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 254 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM,
va_get_xmm 14 va_sM, va_get_xmm 1 va_sM) == xor_reverse_inc32lite_6 2 1 ctr_BE (va_get_xmm 15
va_sM))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Handle_ctr32 (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE) /\ (forall (va_x_r11:nat64) (va_x_xmm0:quad32)
(va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm10:quad32)
(va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14
(va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10
va_x_xmm10 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm
1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR11 va_x_r11 va_s0))))))))))) in va_get_ok
va_sM /\ (va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM,
va_get_xmm 14 va_sM, va_get_xmm 1 va_sM) == xor_reverse_inc32lite_6 2 1 ctr_BE (va_get_xmm 15
va_sM) ==> va_k va_sM (())))
val va_wpProof_Handle_ctr32 : ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Handle_ctr32 ctr_BE va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Handle_ctr32 ()) ([va_Mod_flags;
va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM,
va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Handle_ctr32 ctr_BE va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Handle_ctr32 (va_code_Handle_ctr32 ()) va_s0 ctr_BE in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM
(va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM
(va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR11]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Handle_ctr32 (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32 ())) =
(va_QProc (va_code_Handle_ctr32 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12;
va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1;
va_Mod_xmm 0; va_Mod_reg64 rR11]) (va_wp_Handle_ctr32 ctr_BE) (va_wpProof_Handle_ctr32 ctr_BE))
//--
//-- Loop6x_ctr_update
val va_code_Loop6x_ctr_update : alg:algorithm -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_ctr_update alg =
(va_Block (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (va_CCons
(va_IfElse (va_cmp_ge (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (va_Block (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret) (va_CCons (va_code_Handle_ctr32 ()) (va_CCons (va_code_Sub64
(va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_CNil ()))))) (va_Block (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)
(va_op_xmm_xmm 14)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10)
(va_op_opr128_xmm 15)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11)
(va_op_opr128_xmm 15)) (va_CNil ()))))))) (va_CNil ()))))
val va_codegen_success_Loop6x_ctr_update : alg:algorithm -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_ctr_update alg =
(va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6))
(va_pbool_and (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0)
(va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rR9) (0 - 32) Secret) (va_pbool_and
(va_codegen_success_Handle_ctr32 ()) (va_pbool_and (va_codegen_success_Sub64
(va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_pbool_and
(va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3)
(va_op_reg_opr64_reg64 rR9) (0 - 32) Secret) (va_pbool_and (va_codegen_success_VPaddd
(va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 14)) (va_pbool_and (va_codegen_success_VPxor
(va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_codegen_success_VPxor
(va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)))))))) (va_ttrue ())))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_ctr_update (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (key_words:(seq
nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) :
(va_quickCode unit (va_code_Loop6x_ctr_update alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_QBind va_range1
"***** PRECONDITION NOT MET AT line 339 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (fun (va_s:va_state) _ ->
va_QBind va_range1
"***** PRECONDITION NOT MET AT line 340 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_qIf va_mods (Cmp_ge (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (qblock va_mods (fun
(va_s:va_state) -> va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 341 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret hkeys_b 0) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 342 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Handle_ctr32 ctr_BE) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 343 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_QEmpty (())))))) (qblock
va_mods (fun (va_s:va_state) -> va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 345 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret hkeys_b 0) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 346 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 14)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 347 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_QBind
va_range1
"***** PRECONDITION NOT MET AT line 348 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg36:Prims.nat) = va_get_reg64 rRbx va_old_s in let
(va_arg35:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg34:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let
(va_arg33:Vale.Def.Types_s.quad32) = ctr_BE in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 349 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_msb_in_bounds va_arg33 va_arg34 va_arg35 va_arg36)
(va_QEmpty (()))))))))) (fun (va_s:va_state) va_g -> va_QEmpty (())))))
val va_lemma_Loop6x_ctr_update : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 ->
key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 ->
ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_ctr_update alg) va_s0 /\ va_get_ok va_s0 /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ aes_reqs_offset alg key_words
round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout
va_s0) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216
/\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE
0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus`
256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_get_xmm 1 va_sM ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64
rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == xor_reverse_inc32lite_6 3 0 ctr_BE (va_get_xmm 15
va_sM) /\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0
va_sM)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13
va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9
va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1
va_sM (va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64 rR11 va_sM
(va_update_reg64 rRbx va_sM (va_update_ok va_sM va_s0))))))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_ctr_update va_b0 va_s0 alg h_LE key_words round_keys keys_b hkeys_b ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm
11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1;
va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok] in
let va_qc = va_qcode_Loop6x_ctr_update va_mods alg h_LE key_words round_keys keys_b hkeys_b
ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_ctr_update alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 279 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in label va_range1
"***** POSTCONDITION NOT MET AT line 330 column 57 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE
6)) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 331 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 332 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite
ctr_BE 6) `op_Modulus` 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 334 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == xor_reverse_inc32lite_6 3 0 ctr_BE (va_get_xmm 15 va_sM)) /\
label va_range1
"***** POSTCONDITION NOT MET AT line 335 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_sM))))
in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm
0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_ctr_update (alg:algorithm) (h_LE:quad32) (key_words:(seq nat32)) (round_keys:(seq
quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ aes_reqs_offset alg key_words
round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout
va_s0) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216
/\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE
0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus`
256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h) /\ (forall (va_x_rbx:nat64) (va_x_r11:nat64)
(va_x_xmm3:quad32) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32)
(va_x_xmm6:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32)
(va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm
12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9
(va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1
(va_upd_xmm 0 va_x_xmm0 (va_upd_xmm 3 va_x_xmm3 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx
va_x_rbx va_s0)))))))))))))) in va_get_ok va_sM /\ (let (h:Vale.Math.Poly2_s.poly) =
Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_get_xmm 1
va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <=
va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == xor_reverse_inc32lite_6 3 0 ctr_BE (va_get_xmm 15
va_sM) /\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0
va_sM)) ==> va_k va_sM (())))
val va_wpProof_Loop6x_ctr_update : alg:algorithm -> h_LE:quad32 -> key_words:(seq nat32) ->
round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE:quad32 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_ctr_update alg h_LE key_words round_keys keys_b
hkeys_b ctr_BE va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_ctr_update alg) ([va_Mod_flags;
va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9;
va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3;
va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_ctr_update (va_code_Loop6x_ctr_update alg) va_s0 alg h_LE
key_words round_keys keys_b hkeys_b ctr_BE in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM
(va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM
(va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx
va_sM (va_update_ok va_sM va_s0)))))))))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm
0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_ctr_update (alg:algorithm) (h_LE:quad32) (key_words:(seq nat32))
(round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) : (va_quickCode
unit (va_code_Loop6x_ctr_update alg)) =
(va_QProc (va_code_Loop6x_ctr_update alg) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5;
va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx])
(va_wp_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE)
(va_wpProof_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE))
//--
//-- Loop6x_plain
val va_code_Loop6x_plain : alg:algorithm -> rnd:nat -> rndkey:va_operand_xmm -> Tot va_code
[@ "opaque_to_smt"]
let va_code_Loop6x_plain alg rnd rndkey =
(va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) rndkey
(va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 1) - 128) Secret) (va_CCons
(va_code_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) rndkey) (va_CCons (va_code_VAESNI_enc
(va_op_xmm_xmm 10) (va_op_xmm_xmm 10) rndkey) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) rndkey) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12)
rndkey) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) rndkey) (va_CCons
(va_code_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) rndkey) (va_CNil ())))))))))
val va_codegen_success_Loop6x_plain : alg:algorithm -> rnd:nat -> rndkey:va_operand_xmm -> Tot
va_pbool
[@ "opaque_to_smt"]
let va_codegen_success_Loop6x_plain alg rnd rndkey =
(va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) rndkey
(va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 1) - 128) Secret) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) rndkey) (va_ttrue
()))))))))
val va_lemma_Loop6x_plain : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> rnd:nat ->
key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init:quad32_6 ->
rndkey:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_plain alg rnd rndkey) va_s0 /\ va_is_dst_xmm
rndkey va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ (rndkey == 1 \/ rndkey == 2 \/ rndkey == 15)
/\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 1 < FStar.Seq.Base.length
#quad32 round_keys /\ (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm
12 va_s0, va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == rounds_opaque_6 init round_keys rnd)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys (rnd + 1) /\ va_state_eq
va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12
va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok
va_sM (va_update_operand_xmm rndkey va_sM va_s0)))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_plain va_b0 va_s0 alg rnd key_words round_keys keys_b init rndkey =
va_reveal_opaque (`%va_code_Loop6x_plain) (va_code_Loop6x_plain alg rnd rndkey);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s9, va_fc9) = va_lemma_Load128_buffer (va_hd va_b1) va_s0 (va_op_heaplet_mem_heaplet 0)
rndkey (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 1) - 128) Secret keys_b (rnd + 1)
in
let va_b9 = va_tl va_b1 in
let (va_s10, va_fc10) = va_lemma_VAESNI_enc (va_hd va_b9) va_s9 (va_op_xmm_xmm 9) (va_op_xmm_xmm
9) rndkey in
let va_b10 = va_tl va_b9 in
let (va_s11, va_fc11) = va_lemma_VAESNI_enc (va_hd va_b10) va_s10 (va_op_xmm_xmm 10)
(va_op_xmm_xmm 10) rndkey in
let va_b11 = va_tl va_b10 in
let (va_s12, va_fc12) = va_lemma_VAESNI_enc (va_hd va_b11) va_s11 (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) rndkey in
let va_b12 = va_tl va_b11 in
let (va_s13, va_fc13) = va_lemma_VAESNI_enc (va_hd va_b12) va_s12 (va_op_xmm_xmm 12)
(va_op_xmm_xmm 12) rndkey in
let va_b13 = va_tl va_b12 in
let (va_s14, va_fc14) = va_lemma_VAESNI_enc (va_hd va_b13) va_s13 (va_op_xmm_xmm 13)
(va_op_xmm_xmm 13) rndkey in
let va_b14 = va_tl va_b13 in
let (va_s15, va_fc15) = va_lemma_VAESNI_enc (va_hd va_b14) va_s14 (va_op_xmm_xmm 14)
(va_op_xmm_xmm 14) rndkey in
let va_b15 = va_tl va_b14 in
Vale.AES.AES_s.eval_rounds_reveal ();
Vale.AES.AES_helpers.commute_sub_bytes_shift_rows_forall ();
let (va_sM, va_f15) = va_lemma_empty_total va_s15 va_b15 in
let va_f14 = va_lemma_merge_total va_b14 va_s14 va_fc15 va_s15 va_f15 va_sM in
let va_f13 = va_lemma_merge_total va_b13 va_s13 va_fc14 va_s14 va_f14 va_sM in
let va_f12 = va_lemma_merge_total va_b12 va_s12 va_fc13 va_s13 va_f13 va_sM in
let va_f11 = va_lemma_merge_total va_b11 va_s11 va_fc12 va_s12 va_f12 va_sM in
let va_f10 = va_lemma_merge_total va_b10 va_s10 va_fc11 va_s11 va_f11 va_sM in
let va_f9 = va_lemma_merge_total va_b9 va_s9 va_fc10 va_s10 va_f10 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc9 va_s9 va_f9 va_sM in
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_plain (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32))
(keys_b:buffer128) (init:quad32_6) (rndkey:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm rndkey va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ (rndkey == 1 \/ rndkey == 2 \/
rndkey == 15) /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 1 < FStar.Seq.Base.length
#quad32 round_keys /\ (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm
12 va_s0, va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == rounds_opaque_6 init round_keys rnd) /\
(forall (va_x_rndkey:va_value_xmm) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32)
(va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm
12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9
(va_upd_operand_xmm rndkey va_x_rndkey va_s0))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM,
va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM, va_get_xmm
14 va_sM) == rounds_opaque_6 init round_keys (rnd + 1) ==> va_k va_sM (())))
val va_wpProof_Loop6x_plain : alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq
quad32) -> keys_b:buffer128 -> init:quad32_6 -> rndkey:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_plain alg rnd key_words round_keys keys_b init
rndkey va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_plain alg rnd rndkey)
([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10;
va_Mod_xmm 9; va_mod_xmm rndkey]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_plain alg rnd key_words round_keys keys_b init rndkey va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_plain (va_code_Loop6x_plain alg rnd rndkey) va_s0 alg rnd
key_words round_keys keys_b init rndkey in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM
(va_update_ok va_sM (va_update_operand_xmm rndkey va_sM va_s0))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_mod_xmm rndkey]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_plain (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq
quad32)) (keys_b:buffer128) (init:quad32_6) (rndkey:va_operand_xmm) : (va_quickCode unit
(va_code_Loop6x_plain alg rnd rndkey)) =
(va_QProc (va_code_Loop6x_plain alg rnd rndkey) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_mod_xmm rndkey])
(va_wp_Loop6x_plain alg rnd key_words round_keys keys_b init rndkey) (va_wpProof_Loop6x_plain
alg rnd key_words round_keys keys_b init rndkey))
//--
//-- Loop6x_preamble
val va_code_Loop6x_preamble : alg:algorithm -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_preamble alg =
(va_Block (va_CCons (va_code_Loop6x_ctr_update alg) (va_CCons (va_code_Store128_buffer
(va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 128 Secret)
(va_CCons (va_code_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 15)) (va_CNil ())))))))
val va_codegen_success_Loop6x_preamble : alg:algorithm -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_preamble alg =
(va_pbool_and (va_codegen_success_Loop6x_ctr_update alg) (va_pbool_and
(va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_xmm_xmm 1) 128 Secret) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 12)
(va_op_xmm_xmm 12) (va_op_opr128_xmm 15)) (va_pbool_and (va_codegen_success_VPxor
(va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 15)) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 15))
(va_ttrue ()))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_preamble (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (iv_b:buffer128)
(scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128)
(hkeys_b:buffer128) (ctr_BE:quad32) : (va_quickCode unit (va_code_Loop6x_preamble alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_QBind va_range1
"***** PRECONDITION NOT MET AT line 477 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE) (fun
(va_s:va_state) _ -> let (va_arg43:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg42:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 479 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg42 va_arg43) (let
(va_arg41:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let
(va_arg40:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 480 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg40 va_arg41) (let
(va_arg39:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let
(va_arg38:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 481 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg38 va_arg39) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 498 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_xmm_xmm 1) 128 Secret scratch_b 8) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 499 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg37:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg36:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 499 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg36 va_arg37) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 500 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg35:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg34:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 500 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg34 va_arg35) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 501 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg33:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg32:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 501 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg32 va_arg33) (va_QEmpty
(()))))))))))))))
val va_lemma_Loop6x_preamble : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 ->
iv_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) ->
keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_preamble alg) va_s0 /\ va_get_ok va_s0 /\ (let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ Vale.X64.Decls.validDstAddrs128
(va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0)
Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 ==
FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx
va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9
va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in Vale.X64.Decls.modifies_buffer_specific128
scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 8 8 /\ (let init =
make_six_of #Vale.Def.Types_s.quad32 (fun (n:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor
(Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE n)) (va_get_xmm 15
va_sM)) in (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys 0 /\
Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64
rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_s0)))
/\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 14
va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10
va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2
va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64
rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM (va_update_mem va_sM
va_s0))))))))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_preamble va_b0 va_s0 alg h_LE iv_b scratch_b key_words round_keys keys_b
hkeys_b ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5;
va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx;
va_Mod_ok; va_Mod_mem] in
let va_qc = va_qcode_Loop6x_preamble va_mods alg h_LE iv_b scratch_b key_words round_keys keys_b
hkeys_b ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_preamble alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 402 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in label va_range1
"***** POSTCONDITION NOT MET AT line 459 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 8 8) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 464 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(let init = make_six_of #Vale.Def.Types_s.quad32 (fun (n:(va_int_range 0 5)) ->
Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite
ctr_BE n)) (va_get_xmm 15 va_sM)) in label va_range1
"***** POSTCONDITION NOT MET AT line 466 column 102 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys 0) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 469 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 472 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 473 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite
ctr_BE 6) `op_Modulus` 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 475 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_s0)))))
in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm
12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2;
va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok;
va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_preamble (alg:algorithm) (h_LE:quad32) (iv_b:buffer128) (scratch_b:buffer128)
(key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128)
(ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ Vale.X64.Decls.validDstAddrs128
(va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0)
Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 ==
FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx
va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9
va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h) /\ (forall (va_x_mem:vale_heap) (va_x_rbx:nat64)
(va_x_r11:nat64) (va_x_xmm3:quad32) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32)
(va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32)
(va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32)
(va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_mem_heaplet 3 va_x_heap3 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13
(va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9
va_x_xmm9 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1
va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_xmm 3 va_x_xmm3 (va_upd_reg64 rR11 va_x_r11
(va_upd_reg64 rRbx va_x_rbx (va_upd_mem va_x_mem va_s0)))))))))))))))) in va_get_ok va_sM /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in Vale.X64.Decls.modifies_buffer_specific128
scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 8 8 /\ (let init =
make_six_of #Vale.Def.Types_s.quad32 (fun (n:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor
(Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE n)) (va_get_xmm 15
va_sM)) in (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys 0 /\
Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64
rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_s0)))
==> va_k va_sM (())))
val va_wpProof_Loop6x_preamble : alg:algorithm -> h_LE:quad32 -> iv_b:buffer128 ->
scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 ->
hkeys_b:buffer128 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_preamble alg h_LE iv_b scratch_b key_words
round_keys keys_b hkeys_b ctr_BE va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_preamble alg) ([va_Mod_flags;
va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm
10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0,
va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_preamble alg h_LE iv_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE
va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_preamble (va_code_Loop6x_preamble alg) va_s0 alg h_LE iv_b
scratch_b key_words round_keys keys_b hkeys_b ctr_BE in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 14
va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10
va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2
va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64
rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM (va_update_mem va_sM
va_s0)))))))))))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm
12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2;
va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_mem])
va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_preamble (alg:algorithm) (h_LE:quad32) (iv_b:buffer128) (scratch_b:buffer128)
(key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128)
(ctr_BE:quad32) : (va_quickCode unit (va_code_Loop6x_preamble alg)) =
(va_QProc (va_code_Loop6x_preamble alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14;
va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11;
va_Mod_reg64 rRbx; va_Mod_mem]) (va_wp_Loop6x_preamble alg h_LE iv_b scratch_b key_words
round_keys keys_b hkeys_b ctr_BE) (va_wpProof_Loop6x_preamble alg h_LE iv_b scratch_b key_words
round_keys keys_b hkeys_b ctr_BE))
//--
//-- Loop6x_reverse128
val va_code_Loop6x_reverse128 : in0_offset:nat -> stack_offset:nat -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_reverse128 in0_offset stack_offset =
(va_Block (va_CCons (va_code_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rR13) (va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16 + 8)
Secret true) (va_CCons (va_code_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rR12) (va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16) Secret
false) (va_CCons (va_code_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR13) (stack_offset `op_Multiply` 16)
Secret false) (va_CCons (va_code_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR12) (stack_offset `op_Multiply` 16 + 8)
Secret true) (va_CNil ()))))))
val va_codegen_success_Loop6x_reverse128 : in0_offset:nat -> stack_offset:nat -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_reverse128 in0_offset stack_offset =
(va_pbool_and (va_codegen_success_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rR13) (va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16 + 8)
Secret true) (va_pbool_and (va_codegen_success_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rR12) (va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16) Secret
false) (va_pbool_and (va_codegen_success_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR13) (stack_offset `op_Multiply` 16)
Secret false) (va_pbool_and (va_codegen_success_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR12) (stack_offset `op_Multiply` 16 + 8)
Secret true) (va_ttrue ())))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_reverse128 (va_mods:va_mods_t) (in0_offset:nat) (stack_offset:nat) (start:nat)
(in0_b:buffer128) (scratch_b:buffer128) : (va_quickCode unit (va_code_Loop6x_reverse128
in0_offset stack_offset)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 527 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rR13)
(va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16 + 8) Secret true in0_b (start +
in0_offset)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 528 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rR12)
(va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16) Secret false in0_b (start +
in0_offset)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 529 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR13) (stack_offset `op_Multiply` 16) Secret false scratch_b
stack_offset) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 530 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR12) (stack_offset `op_Multiply` 16 + 8) Secret true scratch_b
stack_offset) (fun (va_s:va_state) _ -> let (va_arg10:Vale.Def.Types_s.quad32) =
Vale.X64.Decls.buffer128_read scratch_b stack_offset (va_get_mem_heaplet 3 va_s) in let
(va_arg9:Vale.Def.Types_s.quad32) = Vale.X64.Decls.buffer128_read scratch_b stack_offset
(va_get_mem_heaplet 3 va_old_s) in let (va_arg8:Vale.Def.Types_s.quad32) =
Vale.X64.Decls.buffer128_read in0_b (start + in0_offset) (va_get_mem_heaplet 6 va_old_s) in
va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 531 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.Arch.Types.lemma_reverse_bytes_quad32_64 va_arg8 va_arg9 va_arg10)
(va_QEmpty (()))))))))
val va_lemma_Loop6x_reverse128 : va_b0:va_code -> va_s0:va_state -> in0_offset:nat ->
stack_offset:nat -> start:nat -> in0_b:buffer128 -> scratch_b:buffer128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_reverse128 in0_offset stack_offset) va_s0 /\
va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128
(va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b start (in0_offset + 1)
(va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3
va_s0) (va_get_reg64 rRbp va_s0) scratch_b (stack_offset + 1) (va_get_mem_layout va_s0)
Secret)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) stack_offset stack_offset /\ Vale.X64.Decls.buffer128_read
scratch_b stack_offset (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32
(Vale.X64.Decls.buffer128_read in0_b (start + in0_offset) (va_get_mem_heaplet 6 va_s0))) /\
va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64
rR12 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_reverse128 va_b0 va_s0 in0_offset stack_offset start in0_b scratch_b =
let (va_mods:va_mods_t) = [va_Mod_mem_heaplet 3; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_ok;
va_Mod_mem] in
let va_qc = va_qcode_Loop6x_reverse128 va_mods in0_offset stack_offset start in0_b scratch_b in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_reverse128 in0_offset
stack_offset) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 504 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (label va_range1
"***** POSTCONDITION NOT MET AT line 523 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) stack_offset stack_offset) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 525 column 88 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b stack_offset (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (start + in0_offset)
(va_get_mem_heaplet 6 va_s0))))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_ok;
va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_reverse128 (in0_offset:nat) (stack_offset:nat) (start:nat) (in0_b:buffer128)
(scratch_b:buffer128) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128
(va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b start (in0_offset + 1)
(va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3
va_s0) (va_get_reg64 rRbp va_s0) scratch_b (stack_offset + 1) (va_get_mem_layout va_s0) Secret)
/\ (forall (va_x_mem:vale_heap) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_heap3:vale_heap) . let
va_sM = va_upd_mem_heaplet 3 va_x_heap3 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12
(va_upd_mem va_x_mem va_s0))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128
scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) stack_offset stack_offset
/\ Vale.X64.Decls.buffer128_read scratch_b stack_offset (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (start + in0_offset)
(va_get_mem_heaplet 6 va_s0))) ==> va_k va_sM (())))
val va_wpProof_Loop6x_reverse128 : in0_offset:nat -> stack_offset:nat -> start:nat ->
in0_b:buffer128 -> scratch_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_reverse128 in0_offset stack_offset start in0_b
scratch_b va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_reverse128 in0_offset
stack_offset) ([va_Mod_mem_heaplet 3; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_mem]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_reverse128 in0_offset stack_offset start in0_b scratch_b va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_reverse128 (va_code_Loop6x_reverse128 in0_offset
stack_offset) va_s0 in0_offset stack_offset start in0_b scratch_b in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR13 va_sM
(va_update_reg64 rR12 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))));
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_mem])
va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_reverse128 (in0_offset:nat) (stack_offset:nat) (start:nat) (in0_b:buffer128)
(scratch_b:buffer128) : (va_quickCode unit (va_code_Loop6x_reverse128 in0_offset stack_offset)) =
(va_QProc (va_code_Loop6x_reverse128 in0_offset stack_offset) ([va_Mod_mem_heaplet 3;
va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_mem]) (va_wp_Loop6x_reverse128 in0_offset
stack_offset start in0_b scratch_b) (va_wpProof_Loop6x_reverse128 in0_offset stack_offset start
in0_b scratch_b))
//--
//-- Loop6x_round9
val va_code_Loop6x_round9 : alg:algorithm -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_round9 alg =
(va_Block (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64
rRbp) (va_op_xmm_xmm 7) 16 Secret) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor
(va_op_xmm_xmm 2) (va_op_xmm_xmm 1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg64_reg64 rRdi) 0 Secret)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_CCons
(va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 1)
(va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret))
(va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm
1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret))
(va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 7) (va_op_xmm_xmm
1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret))
(va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm
1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret))
(va_CNil ())))))))))))))))
val va_codegen_success_Loop6x_round9 : alg:algorithm -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_round9 alg =
(va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 7) 16 Secret) (va_pbool_and
(va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 2)
(va_op_xmm_xmm 1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0
Secret)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_pbool_and
(va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 5)
(va_op_xmm_xmm 1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32
Secret)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_pbool_and
(va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 7)
(va_op_xmm_xmm 1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64
Secret)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (va_ttrue ()))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_round9 (va_mods:va_mods_t) (alg:algorithm) (count:nat) (in_b:buffer128)
(scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) :
(va_quickCode unit (va_code_Loop6x_round9 alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 567 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_xmm_xmm 7) 16 Secret scratch_b 1) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 568 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret in_b
(count `op_Multiply` 6 + 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 568 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 2) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 569 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret in_b
(count `op_Multiply` 6 + 1)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 569 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 570 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret in_b
(count `op_Multiply` 6 + 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 570 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 571 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret in_b
(count `op_Multiply` 6 + 3)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 571 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 572 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret in_b
(count `op_Multiply` 6 + 4)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 572 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 7) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 573 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret in_b
(count `op_Multiply` 6 + 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 573 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (va_QEmpty
(()))))))))))))))))
val va_lemma_Loop6x_round9 : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat ->
in_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) ->
keys_b:buffer128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_round9 alg) va_s0 /\ va_get_ok va_s0 /\
(sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0)
(va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\
Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0)
scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b
(va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm
1 va_s0 == Vale.X64.Decls.buffer128_read keys_b (Vale.AES.AES_common_s.nr alg)
(va_get_mem_heaplet 0 va_s0))))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 1 1 /\ (va_get_xmm 2 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5
va_sM, va_get_xmm 6 va_sM, va_get_xmm 7 va_sM, va_get_xmm 3 va_sM) == make_six_of #quad32 (fun
(i:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor (FStar.Seq.Base.index
#Vale.Def.Types_s.quad32 round_keys (Vale.AES.AES_common_s.nr alg))
(Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_sM)))
/\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 7
va_s0) /\ va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_flags va_sM
(va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 3 va_sM
(va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_ok va_sM
(va_update_mem va_sM va_s0)))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_round9 va_b0 va_s0 alg count in_b scratch_b key_words round_keys keys_b =
let (va_mods:va_mods_t) = [va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_ok; va_Mod_mem] in
let va_qc = va_qcode_Loop6x_round9 va_mods alg count in_b scratch_b key_words round_keys keys_b in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_round9 alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 535 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (label va_range1
"***** POSTCONDITION NOT MET AT line 561 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 1 1) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 563 column 102 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 2 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5 va_sM, va_get_xmm 6 va_sM, va_get_xmm 7
va_sM, va_get_xmm 3 va_sM) == make_six_of #quad32 (fun (i:(va_int_range 0 5)) ->
Vale.Def.Types_s.quad32_xor (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys
(Vale.AES.AES_common_s.nr alg)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i)
(va_get_mem_heaplet 6 va_sM)))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 564 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 7
va_s0))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm
5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_ok; va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_round9 (alg:algorithm) (count:nat) (in_b:buffer128) (scratch_b:buffer128)
(key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6
va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0)
Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp
va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys
keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\
va_get_xmm 1 va_s0 == Vale.X64.Decls.buffer128_read keys_b (Vale.AES.AES_common_s.nr alg)
(va_get_mem_heaplet 0 va_s0)) /\ (forall (va_x_mem:vale_heap) (va_x_xmm0:quad32)
(va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32)
(va_x_xmm7:quad32) (va_x_efl:Vale.X64.Flags.t) (va_x_heap3:vale_heap) . let va_sM =
va_upd_mem_heaplet 3 va_x_heap3 (va_upd_flags va_x_efl (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6
va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1
va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_mem va_x_mem va_s0))))))))) in va_get_ok va_sM /\
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 1 1 /\ (va_get_xmm 2 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5
va_sM, va_get_xmm 6 va_sM, va_get_xmm 7 va_sM, va_get_xmm 3 va_sM) == make_six_of #quad32 (fun
(i:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor (FStar.Seq.Base.index
#Vale.Def.Types_s.quad32 round_keys (Vale.AES.AES_common_s.nr alg))
(Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_sM)))
/\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 7
va_s0) ==> va_k va_sM (())))
val va_wpProof_Loop6x_round9 : alg:algorithm -> count:nat -> in_b:buffer128 -> scratch_b:buffer128
-> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_round9 alg count in_b scratch_b key_words
round_keys keys_b va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_round9 alg)
([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 3;
va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_round9 alg count in_b scratch_b key_words round_keys keys_b va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_round9 (va_code_Loop6x_round9 alg) va_s0 alg count in_b
scratch_b key_words round_keys keys_b in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_flags va_sM (va_update_xmm 7
va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2
va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_ok va_sM (va_update_mem va_sM
va_s0))))))))))));
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm
5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_mem]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_round9 (alg:algorithm) (count:nat) (in_b:buffer128) (scratch_b:buffer128)
(key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) : (va_quickCode unit
(va_code_Loop6x_round9 alg)) =
(va_QProc (va_code_Loop6x_round9 alg) ([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7;
va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_mem]) (va_wp_Loop6x_round9 alg count in_b scratch_b key_words round_keys keys_b)
(va_wpProof_Loop6x_round9 alg count in_b scratch_b key_words round_keys keys_b))
//--
//-- load_one_msb
val va_code_load_one_msb : va_dummy:unit -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_load_one_msb () =
(va_Block (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 2)) (va_CCons (va_code_PinsrqImm
(va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
val va_codegen_success_load_one_msb : va_dummy:unit -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_load_one_msb () =
(va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 2)) (va_pbool_and
(va_codegen_success_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64
rR11)) (va_ttrue ())))
[@ "opaque_to_smt" va_qattr]
let va_qcode_load_one_msb (va_mods:va_mods_t) : (va_quickCode unit (va_code_load_one_msb ())) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1
"***** PRECONDITION NOT MET AT line 583 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_ZeroXmm (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> va_qAssert va_range1
"***** PRECONDITION NOT MET AT line 584 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 0 16777216) ==
72057594037927936) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 585 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (fun
(va_s:va_state) _ -> va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 586 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.Def.Types_s.insert_nat64_reveal ()) (va_QEmpty (())))))))
val va_lemma_load_one_msb : va_b0:va_code -> va_s0:va_state
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_load_one_msb ()) va_s0 /\ va_get_ok va_s0 /\
sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\
va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11 va_sM
(va_update_ok va_sM va_s0))))))
[@"opaque_to_smt"]
let va_lemma_load_one_msb va_b0 va_s0 =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok] in
let va_qc = va_qcode_load_one_msb va_mods in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_load_one_msb ()) va_qc va_s0 (fun va_s0
va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 576 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 581 column 46 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216)) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_load_one_msb (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_r11:nat64) (va_x_xmm2:quad32)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 2 va_x_xmm2
(va_upd_reg64 rR11 va_x_r11 va_s0)) in va_get_ok va_sM /\ va_get_xmm 2 va_sM ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 ==> va_k va_sM (())))
val va_wpProof_load_one_msb : va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_load_one_msb va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_load_one_msb ()) ([va_Mod_flags;
va_Mod_xmm 2; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_load_one_msb va_s0 va_k =
let (va_sM, va_f0) = va_lemma_load_one_msb (va_code_load_one_msb ()) va_s0 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11
va_sM (va_update_ok va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_load_one_msb () : (va_quickCode unit (va_code_load_one_msb ())) =
(va_QProc (va_code_load_one_msb ()) ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11])
va_wp_load_one_msb va_wpProof_load_one_msb)
//--
//-- Loop6x_final
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_final alg =
(va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 1)
(va_op_reg_opr64_reg64 rRbp) 128 Secret) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 9)
(va_op_xmm_xmm 9) (va_op_xmm_xmm 2)) (va_CCons (va_code_load_one_msb ()) (va_CCons
(va_code_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_CCons
(va_code_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR13) (7 `op_Multiply` 16) Secret false) (va_CCons (va_code_AddLea64
(va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_CCons
(va_code_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 5) (va_op_xmm_xmm 0) (va_op_xmm_xmm 2)) (va_CCons
(va_code_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR12) (7 `op_Multiply` 16 + 8) Secret true) (va_CCons (va_code_AddLea64
(va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64
rRcx) (0 - 128) Secret) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm
12) (va_op_xmm_xmm 6)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)
(va_op_xmm_xmm 2)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13)
(va_op_xmm_xmm 7)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 7) (va_op_xmm_xmm 6) (va_op_xmm_xmm
2)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3))
(va_CCons (va_code_VPaddd (va_op_xmm_xmm 3) (va_op_xmm_xmm 7) (va_op_xmm_xmm 2)) (va_CNil
()))))))))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_final alg =
(va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 1)
(va_op_reg_opr64_reg64 rRbp) 128 Secret) (va_pbool_and (va_codegen_success_VAESNI_enc_last
(va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 2)) (va_pbool_and
(va_codegen_success_load_one_msb ()) (va_pbool_and (va_codegen_success_VAESNI_enc_last
(va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and
(va_codegen_success_VPaddd (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_pbool_and
(va_codegen_success_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64
rRbp) (va_op_reg_opr64_reg64 rR13) (7 `op_Multiply` 16) Secret false) (va_pbool_and
(va_codegen_success_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi)
(va_const_opr64 96)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm
5) (va_op_xmm_xmm 0) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_Store64_buffer128
(va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR12) (7
`op_Multiply` 16 + 8) Secret true) (va_pbool_and (va_codegen_success_AddLea64
(va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_pbool_and
(va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15)
(va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_pbool_and
(va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 6))
(va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 6) (va_op_xmm_xmm 5) (va_op_xmm_xmm 2))
(va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13)
(va_op_xmm_xmm 7)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 7) (va_op_xmm_xmm 6)
(va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 14)
(va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm
3) (va_op_xmm_xmm 7) (va_op_xmm_xmm 2)) (va_ttrue ())))))))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_final (va_mods:va_mods_t) (alg:algorithm) (iv_b:buffer128)
(scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128)
(ctr_orig:quad32) (init:quad32_6) (ctrs:quad32_6) (plain:quad32_6) (inb:quad32) : (va_quickCode
unit (va_code_Loop6x_final alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 667 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.Arch.TypesNative.lemma_quad32_xor_commutes_forall ()) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 669 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 1) (va_op_reg_opr64_reg64
rRbp) 128 Secret scratch_b 8) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 671 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 2)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 672 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_load_one_msb ()) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 673 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 674 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 675 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR13) (7 `op_Multiply` 16) Secret false scratch_b 7) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 676 column 13 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96))
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 677 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 678 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 5) (va_op_xmm_xmm 0) (va_op_xmm_xmm 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 679 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR12) (7 `op_Multiply` 16 + 8) Secret true scratch_b 7) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 680 column 13 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_AddLea64 (va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96))
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 681 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15)
(va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret keys_b 0) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 683 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 6)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 684 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 6) (va_op_xmm_xmm 5) (va_op_xmm_xmm 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 685 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 7)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 686 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 7) (va_op_xmm_xmm 6) (va_op_xmm_xmm 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 687 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_QBind
va_range1
"***** PRECONDITION NOT MET AT line 688 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 3) (va_op_xmm_xmm 7) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _
-> let (va_arg117:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let
(va_arg116:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_s in let
(va_arg115:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_old_s in let
(va_arg114:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___1 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 init in let (va_arg113:Vale.Def.Types_s.quad32) =
__proj__Mktuple6__item___1 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let
(va_arg112:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___1 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 ctrs in let (va_arg111:Vale.AES.AES_common_s.algorithm) = alg in
va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 690 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg111 va_arg112 va_arg113 va_arg114
va_arg115 va_arg116 va_arg117) (let (va_arg110:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg109:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let
(va_arg108:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_old_s in let
(va_arg107:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___2 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 init in let (va_arg106:Vale.Def.Types_s.quad32) =
__proj__Mktuple6__item___2 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let
(va_arg105:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___2 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 ctrs in let (va_arg104:Vale.AES.AES_common_s.algorithm) = alg in
va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 691 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg104 va_arg105 va_arg106 va_arg107
va_arg108 va_arg109 va_arg110) (let (va_arg103:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg102:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let
(va_arg101:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_old_s in let
(va_arg100:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___3 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 init in let (va_arg99:Vale.Def.Types_s.quad32) =
__proj__Mktuple6__item___3 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let
(va_arg98:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___3 #quad32 #quad32 #quad32 #quad32
#quad32 #quad32 ctrs in let (va_arg97:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE
va_range1
"***** PRECONDITION NOT MET AT line 692 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg97 va_arg98 va_arg99 va_arg100
va_arg101 va_arg102 va_arg103) (let (va_arg96:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg95:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let
(va_arg94:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_old_s in let
(va_arg93:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___4 #quad32 #quad32 #quad32 #quad32
#quad32 #quad32 init in let (va_arg92:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___4
#quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let (va_arg91:Vale.Def.Types_s.quad32)
= __proj__Mktuple6__item___4 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs in let
(va_arg90:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 693 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg90 va_arg91 va_arg92 va_arg93
va_arg94 va_arg95 va_arg96) (let (va_arg89:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg88:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let
(va_arg87:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_old_s in let
(va_arg86:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___5 #quad32 #quad32 #quad32 #quad32
#quad32 #quad32 init in let (va_arg85:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___5
#quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let (va_arg84:Vale.Def.Types_s.quad32)
= __proj__Mktuple6__item___5 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs in let
(va_arg83:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 694 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg83 va_arg84 va_arg85 va_arg86
va_arg87 va_arg88 va_arg89) (let (va_arg82:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg81:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let
(va_arg80:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_old_s in let
(va_arg79:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___6 #quad32 #quad32 #quad32 #quad32
#quad32 #quad32 init in let (va_arg78:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___6
#quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let (va_arg77:Vale.Def.Types_s.quad32)
= __proj__Mktuple6__item___6 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs in let
(va_arg76:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 695 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg76 va_arg77 va_arg78 va_arg79
va_arg80 va_arg81 va_arg82) (va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 696 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___1 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___1 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___1 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 697 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___2 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___2 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___2 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 698 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___3 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___3 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___3 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 699 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___4 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___4 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___4 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 700 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___5 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___5 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___5 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 701 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___6 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___6 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___6 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(let (va_arg75:Vale.Def.Types_s.quad32) = Vale.X64.Decls.buffer128_read scratch_b 7
(va_get_mem_heaplet 3 va_s) in let (va_arg74:Vale.Def.Types_s.quad32) =
Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_old_s) in let
(va_arg73:Vale.Def.Types_s.quad32) = inb in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 703 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.Arch.Types.lemma_reverse_bytes_quad32_64 va_arg73 va_arg74 va_arg75) (let
(va_arg72:Vale.Def.Types_s.quad32) = va_get_xmm 0 va_s in let
(va_arg71:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg70:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 705 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg70 va_arg71 va_arg72 1) (let
(va_arg69:Vale.Def.Types_s.quad32) = va_get_xmm 5 va_s in let
(va_arg68:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg67:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 706 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg67 va_arg68 va_arg69 2) (let
(va_arg66:Vale.Def.Types_s.quad32) = va_get_xmm 6 va_s in let
(va_arg65:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg64:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 707 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg64 va_arg65 va_arg66 3) (let
(va_arg63:Vale.Def.Types_s.quad32) = va_get_xmm 7 va_s in let
(va_arg62:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg61:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 708 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg61 va_arg62 va_arg63 4) (let
(va_arg60:Vale.Def.Types_s.quad32) = va_get_xmm 3 va_s in let
(va_arg59:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg58:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 709 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg58 va_arg59 va_arg60 5) (va_QEmpty
(()))))))))))))))))))))))))))))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_final va_b0 va_s0 alg iv_b scratch_b key_words round_keys keys_b ctr_orig init
ctrs plain inb =
let (va_mods:va_mods_t) = [va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14;
va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 7;
va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi;
va_Mod_ok; va_Mod_mem] in
let va_qc = va_qcode_Loop6x_final va_mods alg iv_b scratch_b key_words round_keys keys_b ctr_orig
init ctrs plain inb in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_final alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 589 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (label va_range1
"***** POSTCONDITION NOT MET AT line 649 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 7 7) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 652 column 73 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 inb) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 654 column 111 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == map2_six_of #quad32 #quad32 #quad32 plain ctrs (fun
(p:quad32) (c:quad32) -> Vale.Def.Types_s.quad32_xor p (Vale.AES.AES_s.aes_encrypt_LE alg
key_words c))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 655 column 39 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 15 va_sM == FStar.Seq.Base.index #quad32 round_keys 0) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 657 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRdi va_sM == va_get_reg64 rRdi va_s0 + 96) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 658 column 33 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRsi va_sM == va_get_reg64 rRsi va_s0 + 96) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 660 column 41 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216) /\ label
va_range1
"***** POSTCONDITION NOT MET AT line 662 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 1 va_sM == Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_s0))
/\ label va_range1
"***** POSTCONDITION NOT MET AT line 663 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(let ctr = Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_orig `op_Modulus` 256 in label
va_range1
"***** POSTCONDITION NOT MET AT line 665 column 60 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(ctr + 6 < 256 ==> (va_get_xmm 1 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5 va_sM, va_get_xmm 6
va_sM, va_get_xmm 7 va_sM, va_get_xmm 3 va_sM) == xor_reverse_inc32lite_6 0 0 ctr_orig
(va_get_xmm 15 va_sM))))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm
13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 7; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR13;
va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_ok;
va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Loop6x_final alg iv_b scratch_b key_words round_keys keys_b ctr_orig init ctrs plain
inb va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_final (va_code_Loop6x_final alg) va_s0 alg iv_b scratch_b
key_words round_keys keys_b ctr_orig init ctrs plain inb in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_flags va_sM (va_update_xmm 15
va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11
va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_xmm 7 va_sM (va_update_xmm 6
va_sM (va_update_xmm 5 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1
va_sM (va_update_xmm 0 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64 rR12 va_sM
(va_update_reg64 rR11 va_sM (va_update_reg64 rRsi va_sM (va_update_reg64 rRdi va_sM
(va_update_ok va_sM (va_update_mem va_sM va_s0))))))))))))))))))))))));
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 15; va_Mod_xmm 14; va_Mod_xmm
13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 7; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR13;
va_Mod_reg64 rR12; va_Mod_reg64 rR11; va_Mod_reg64 rRsi; va_Mod_reg64 rRdi; va_Mod_mem]) va_sM
va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Loop6x_save_output
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_save_output () =
(va_Block (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64
rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret) (va_CCons (va_code_VPxor (va_op_xmm_xmm 9)
(va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_CCons (va_code_Store128_buffer
(va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret)
(va_CCons (va_code_Mov128 (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons
(va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 11) (0 - 64) Secret) (va_CCons (va_code_Mov128 (va_op_xmm_xmm 11) (va_op_xmm_xmm
5)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64
rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret) (va_CCons (va_code_Mov128 (va_op_xmm_xmm 12)
(va_op_xmm_xmm 6)) (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 13) (0 - 32) Secret) (va_CCons (va_code_Mov128
(va_op_xmm_xmm 13) (va_op_xmm_xmm 7)) (va_CCons (va_code_Store128_buffer
(va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret)
(va_CCons (va_code_Mov128 (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_CNil ()))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_save_output () =
(va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 9) (0 - 96) Secret) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15))
(va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 10) (0 - 80) Secret) (va_pbool_and
(va_codegen_success_Mov128 (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and
(va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 11) (0 - 64) Secret) (va_pbool_and (va_codegen_success_Mov128 (va_op_xmm_xmm 11)
(va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet
6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 12) (0 - 48) Secret) (va_pbool_and
(va_codegen_success_Mov128 (va_op_xmm_xmm 12) (va_op_xmm_xmm 6)) (va_pbool_and
(va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 13) (0 - 32) Secret) (va_pbool_and (va_codegen_success_Mov128 (va_op_xmm_xmm 13)
(va_op_xmm_xmm 7)) (va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet
6) (va_op_reg_opr64_reg64 rRsi) (va_op_xmm_xmm 14) (0 - 16) Secret) (va_pbool_and
(va_codegen_success_Mov128 (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_ttrue ())))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_save_output (va_mods:va_mods_t) (count:nat) (out_b:buffer128) : (va_quickCode
unit (va_code_Loop6x_save_output ())) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 744 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 9) (0 - 96) Secret out_b (count `op_Multiply` 6 + 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 745 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 9) (va_op_xmm_xmm 1) (va_op_opr128_xmm 15)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 746 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 10) (0 - 80) Secret out_b (count `op_Multiply` 6 + 1)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 747 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mov128 (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 748 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 11) (0 - 64) Secret out_b (count `op_Multiply` 6 + 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 749 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mov128 (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 750 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 12) (0 - 48) Secret out_b (count `op_Multiply` 6 + 3)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 751 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mov128 (va_op_xmm_xmm 12) (va_op_xmm_xmm 6)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 752 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 13) (0 - 32) Secret out_b (count `op_Multiply` 6 + 4)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 753 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mov128 (va_op_xmm_xmm 13) (va_op_xmm_xmm 7)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 754 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rRsi)
(va_op_xmm_xmm 14) (0 - 16) Secret out_b (count `op_Multiply` 6 + 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 755 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mov128 (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_QEmpty (()))))))))))))))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.InsAes.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Transformers.Transform.fsti.checked",
"Vale.Math.Poly2_s.fsti.checked",
"Vale.Math.Poly2.Bits_s.fsti.checked",
"Vale.Math.Poly2.Bits.fsti.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Def.Prop_s.fst.checked",
"Vale.Def.Opaque_s.fsti.checked",
"Vale.Arch.TypesNative.fsti.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"Vale.AES.X64.PolyOps.fsti.checked",
"Vale.AES.X64.AESopt2.fsti.checked",
"Vale.AES.X64.AESGCM_expected_code.fsti.checked",
"Vale.AES.GHash.fsti.checked",
"Vale.AES.GF128_s.fsti.checked",
"Vale.AES.GF128.fsti.checked",
"Vale.AES.GCTR_s.fst.checked",
"Vale.AES.GCTR.fsti.checked",
"Vale.AES.GCM_helpers.fsti.checked",
"Vale.AES.AES_s.fst.checked",
"Vale.AES.AES_helpers.fsti.checked",
"Vale.AES.AES_common_s.fst.checked",
"prims.fst.checked",
"FStar.Seq.Base.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked"
],
"interface_file": true,
"source_file": "Vale.AES.X64.AESopt.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Transformers.Transform",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESGCM_expected_code",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESopt2",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.PolyOps",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GHash",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Math.Poly2_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.TypesNative",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCM_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsAes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"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.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Seq",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_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": "FStar.Mul",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Transformers.Transform",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESGCM_expected_code",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESopt2",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.PolyOps",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GHash",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Math.Poly2_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.TypesNative",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCM_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsAes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"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.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Seq",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_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.AES.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.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": 30,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
va_b0: Vale.X64.Decls.va_code ->
va_s0: Vale.X64.Decls.va_state ->
count: Prims.nat ->
out_b: Vale.X64.Memory.buffer128
-> Prims.Ghost (Vale.X64.Decls.va_state * Vale.X64.Decls.va_fuel) | Prims.Ghost | [] | [] | [
"Vale.X64.Decls.va_code",
"Vale.X64.Decls.va_state",
"Prims.nat",
"Vale.X64.Memory.buffer128",
"Vale.X64.QuickCodes.fuel",
"Prims.unit",
"FStar.Pervasives.Native.Mktuple2",
"Vale.X64.Decls.va_fuel",
"Vale.X64.QuickCode.va_lemma_norm_mods",
"Prims.Cons",
"Vale.X64.QuickCode.mod_t",
"Vale.X64.QuickCode.va_Mod_flags",
"Vale.X64.QuickCode.va_Mod_mem_heaplet",
"Vale.X64.QuickCode.va_Mod_xmm",
"Vale.X64.QuickCode.va_Mod_ok",
"Vale.X64.QuickCode.va_Mod_mem",
"Prims.Nil",
"FStar.Pervasives.assert_norm",
"Prims.eq2",
"Prims.list",
"Vale.X64.QuickCode.__proj__QProc__item__mods",
"Vale.AES.X64.AESopt.va_code_Loop6x_save_output",
"FStar.Pervasives.Native.tuple2",
"FStar.Pervasives.Native.tuple3",
"Vale.X64.State.vale_state",
"Vale.X64.QuickCodes.va_wp_sound_code_norm",
"Prims.l_and",
"Vale.X64.QuickCodes.label",
"Vale.X64.QuickCodes.va_range1",
"Prims.b2t",
"Vale.X64.Decls.va_get_ok",
"Vale.X64.Decls.modifies_buffer_specific128",
"Vale.X64.Decls.va_get_mem_heaplet",
"Prims.op_Addition",
"Prims.op_Multiply",
"FStar.Seq.Base.seq",
"Vale.X64.Decls.quad32",
"FStar.Seq.Base.slice",
"Vale.X64.Decls.buffer128_as_seq",
"FStar.Pervasives.Native.tuple6",
"FStar.Pervasives.Native.Mktuple6",
"Vale.X64.Decls.va_get_xmm",
"Vale.AES.X64.AESopt.make_six_of",
"Vale.X64.Decls.va_int_range",
"Vale.X64.Decls.buffer128_read",
"Vale.Def.Types_s.quad32",
"Vale.Def.Types_s.quad32_xor",
"Vale.X64.QuickCode.quickCode",
"Vale.AES.X64.AESopt.va_qcode_Loop6x_save_output"
] | [] | false | false | false | false | false | let va_lemma_Loop6x_save_output va_b0 va_s0 count out_b =
| let va_mods:va_mods_t =
[
va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_ok; va_Mod_mem
]
in
let va_qc = va_qcode_Loop6x_save_output va_mods count out_b in
let va_sM, va_fM, va_g =
va_wp_sound_code_norm (va_code_Loop6x_save_output ())
va_qc
va_s0
(fun va_s0 va_sM va_g ->
let () = va_g in
label va_range1
"***** POSTCONDITION NOT MET AT line 712 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\
(label va_range1
"***** POSTCONDITION NOT MET AT line 737 column 84 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 out_b
(va_get_mem_heaplet 6 va_s0)
(va_get_mem_heaplet 6 va_sM)
(count `op_Multiply` 6 + 0)
(count `op_Multiply` 6 + 5)) /\
label va_range1
"***** POSTCONDITION NOT MET AT line 738 column 120 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(FStar.Seq.Base.slice #Vale.X64.Decls.quad32
(Vale.X64.Decls.buffer128_as_seq (va_get_mem_heaplet 6 va_sM) out_b)
0
(6 `op_Multiply` count) ==
FStar.Seq.Base.slice #Vale.X64.Decls.quad32
(Vale.X64.Decls.buffer128_as_seq (va_get_mem_heaplet 6 va_s0) out_b)
0
(6 `op_Multiply` count)) /\
label va_range1
"***** POSTCONDITION NOT MET AT line 740 column 92 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_s0,
va_get_xmm 10 va_s0,
va_get_xmm 11 va_s0,
va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0,
va_get_xmm 14 va_s0) ==
make_six_of #quad32
(fun (i: (va_int_range 0 5)) ->
Vale.X64.Decls.buffer128_read out_b
(count `op_Multiply` 6 + i)
(va_get_mem_heaplet 6 va_sM))) /\
label va_range1
"***** POSTCONDITION NOT MET AT line 742 column 64 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM,
va_get_xmm 10 va_sM,
va_get_xmm 11 va_sM,
va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM,
va_get_xmm 14 va_sM) ==
(Vale.Def.Types_s.quad32_xor (va_get_xmm 1 va_sM) (va_get_xmm 15 va_sM),
va_get_xmm 0 va_sM,
va_get_xmm 5 va_sM,
va_get_xmm 6 va_sM,
va_get_xmm 7 va_sM,
va_get_xmm 3 va_sM))))
in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([
va_Mod_flags; va_Mod_mem_heaplet 6; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_ok; va_Mod_mem
])
va_sM
va_s0;
(va_sM, va_fM) | false |
Hacl.Spec.Curve25519.AddAndDouble.fst | Hacl.Spec.Curve25519.AddAndDouble.montgomery_ladder1_2 | val montgomery_ladder1_2 : init: Spec.Curve25519.elem
-> ((Spec.Curve25519.elem * Spec.Curve25519.elem) * (Spec.Curve25519.elem * Spec.Curve25519.elem)) *
(Spec.Curve25519.elem * Spec.Curve25519.elem) | let montgomery_ladder1_2 (init:elem) =
let q = (init, one) in
let nq = (one, zero) in
let nqp1 = (init, one) in
q, nq, nqp1 | {
"file_name": "code/curve25519/Hacl.Spec.Curve25519.AddAndDouble.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 13,
"end_line": 67,
"start_col": 0,
"start_line": 63
} | module Hacl.Spec.Curve25519.AddAndDouble
open FStar.Mul
open Lib.IntTypes
open Spec.Curve25519
let add_and_double1_0 a b nqp1 =
let x_3, z_3 = nqp1 in
let c = x_3 +% z_3 in
let d = x_3 -% z_3 in
let da = d *% a in
let cb = c *% b in
let x_3 = da +% cb in
let z_3 = da -% cb in
(x_3, z_3)
let add_and_double1_1 a b nqp1 =
let x_3, z_3 = nqp1 in
let aa = a *% a in
let bb = b *% b in
let x_3 = x_3 *% x_3 in
let z_3 = z_3 *% z_3 in
let e = aa -% bb in
let e121665 = e *% 121665 in
let aa_e121665 = e121665 +% aa in
let x_2 = aa *% bb in
let z_2 = e *% aa_e121665 in
(x_2, z_2), (x_3, z_3)
let add_and_double1 q nq nqp1 =
let x_1, z_1 = q in
let x_2, z_2 = nq in
let a = x_2 +% z_2 in
let b = x_2 -% z_2 in
let nqp1 = add_and_double1_0 a b nqp1 in
let (x_2, z_2), (x_3, z_3) = add_and_double1_1 a b nqp1 in
let z_3 = z_3 *% x_1 in
(x_2, z_2), (x_3, z_3)
val lemma_add_and_double: q:proj_point -> nq:proj_point -> nqp1:proj_point ->
Lemma (add_and_double1 q nq nqp1 == add_and_double q nq nqp1)
let lemma_add_and_double q nq nqp1 = ()
let montgomery_ladder1_0 (k:scalar) (q:proj_point) (nq:proj_point) (nqp1:proj_point) =
// bit 255 is 0 and bit 254 is 1
let nq,nqp1 = cswap2 (u64 1) nq nqp1 in
let nq,nqp1 = add_and_double q nq nqp1 in
let swap = u64 1 in
let nq,nqp1,swap = Lib.LoopCombinators.repeati 251 (ladder_step k q) (nq, nqp1, swap) in
let nq,nqp1 = cswap2 swap nq nqp1 in
nq
let montgomery_ladder1_1 (nq:proj_point) =
let nq = double nq in
let nq = double nq in
let nq = double nq in
nq | {
"checked_file": "/",
"dependencies": [
"Spec.Curve25519.fst.checked",
"prims.fst.checked",
"Lib.LoopCombinators.fsti.checked",
"Lib.IntTypes.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked"
],
"interface_file": false,
"source_file": "Hacl.Spec.Curve25519.AddAndDouble.fst"
} | [
{
"abbrev": false,
"full_module": "Spec.Curve25519",
"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": "Hacl.Spec.Curve25519",
"short_module": null
},
{
"abbrev": false,
"full_module": "Hacl.Spec.Curve25519",
"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": false,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | init: Spec.Curve25519.elem
-> ((Spec.Curve25519.elem * Spec.Curve25519.elem) * (Spec.Curve25519.elem * Spec.Curve25519.elem)) *
(Spec.Curve25519.elem * Spec.Curve25519.elem) | Prims.Tot | [
"total"
] | [] | [
"Spec.Curve25519.elem",
"FStar.Pervasives.Native.Mktuple3",
"FStar.Pervasives.Native.tuple2",
"FStar.Pervasives.Native.Mktuple2",
"Spec.Curve25519.one",
"Spec.Curve25519.zero",
"FStar.Pervasives.Native.tuple3"
] | [] | false | false | false | true | false | let montgomery_ladder1_2 (init: elem) =
| let q = (init, one) in
let nq = (one, zero) in
let nqp1 = (init, one) in
q, nq, nqp1 | false |
|
Hacl.Spec.Curve25519.AddAndDouble.fst | Hacl.Spec.Curve25519.AddAndDouble.montgomery_ladder1 | val montgomery_ladder1 (init: elem) (k: scalar) : Tot proj_point | val montgomery_ladder1 (init: elem) (k: scalar) : Tot proj_point | let montgomery_ladder1 (init:elem) (k:scalar) : Tot proj_point =
let q, nq, nqp1 = montgomery_ladder1_2 init in
let nq = montgomery_ladder1_0 k q nq nqp1 in
montgomery_ladder1_1 nq | {
"file_name": "code/curve25519/Hacl.Spec.Curve25519.AddAndDouble.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 25,
"end_line": 72,
"start_col": 0,
"start_line": 69
} | module Hacl.Spec.Curve25519.AddAndDouble
open FStar.Mul
open Lib.IntTypes
open Spec.Curve25519
let add_and_double1_0 a b nqp1 =
let x_3, z_3 = nqp1 in
let c = x_3 +% z_3 in
let d = x_3 -% z_3 in
let da = d *% a in
let cb = c *% b in
let x_3 = da +% cb in
let z_3 = da -% cb in
(x_3, z_3)
let add_and_double1_1 a b nqp1 =
let x_3, z_3 = nqp1 in
let aa = a *% a in
let bb = b *% b in
let x_3 = x_3 *% x_3 in
let z_3 = z_3 *% z_3 in
let e = aa -% bb in
let e121665 = e *% 121665 in
let aa_e121665 = e121665 +% aa in
let x_2 = aa *% bb in
let z_2 = e *% aa_e121665 in
(x_2, z_2), (x_3, z_3)
let add_and_double1 q nq nqp1 =
let x_1, z_1 = q in
let x_2, z_2 = nq in
let a = x_2 +% z_2 in
let b = x_2 -% z_2 in
let nqp1 = add_and_double1_0 a b nqp1 in
let (x_2, z_2), (x_3, z_3) = add_and_double1_1 a b nqp1 in
let z_3 = z_3 *% x_1 in
(x_2, z_2), (x_3, z_3)
val lemma_add_and_double: q:proj_point -> nq:proj_point -> nqp1:proj_point ->
Lemma (add_and_double1 q nq nqp1 == add_and_double q nq nqp1)
let lemma_add_and_double q nq nqp1 = ()
let montgomery_ladder1_0 (k:scalar) (q:proj_point) (nq:proj_point) (nqp1:proj_point) =
// bit 255 is 0 and bit 254 is 1
let nq,nqp1 = cswap2 (u64 1) nq nqp1 in
let nq,nqp1 = add_and_double q nq nqp1 in
let swap = u64 1 in
let nq,nqp1,swap = Lib.LoopCombinators.repeati 251 (ladder_step k q) (nq, nqp1, swap) in
let nq,nqp1 = cswap2 swap nq nqp1 in
nq
let montgomery_ladder1_1 (nq:proj_point) =
let nq = double nq in
let nq = double nq in
let nq = double nq in
nq
let montgomery_ladder1_2 (init:elem) =
let q = (init, one) in
let nq = (one, zero) in
let nqp1 = (init, one) in
q, nq, nqp1 | {
"checked_file": "/",
"dependencies": [
"Spec.Curve25519.fst.checked",
"prims.fst.checked",
"Lib.LoopCombinators.fsti.checked",
"Lib.IntTypes.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked"
],
"interface_file": false,
"source_file": "Hacl.Spec.Curve25519.AddAndDouble.fst"
} | [
{
"abbrev": false,
"full_module": "Spec.Curve25519",
"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": "Hacl.Spec.Curve25519",
"short_module": null
},
{
"abbrev": false,
"full_module": "Hacl.Spec.Curve25519",
"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": false,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | init: Spec.Curve25519.elem -> k: Spec.Curve25519.scalar -> Spec.Curve25519.proj_point | Prims.Tot | [
"total"
] | [] | [
"Spec.Curve25519.elem",
"Spec.Curve25519.scalar",
"FStar.Pervasives.Native.tuple2",
"Hacl.Spec.Curve25519.AddAndDouble.montgomery_ladder1_1",
"Spec.Curve25519.proj_point",
"Hacl.Spec.Curve25519.AddAndDouble.montgomery_ladder1_0",
"FStar.Pervasives.Native.tuple3",
"Hacl.Spec.Curve25519.AddAndDouble.montgomery_ladder1_2"
] | [] | false | false | false | true | false | let montgomery_ladder1 (init: elem) (k: scalar) : Tot proj_point =
| let q, nq, nqp1 = montgomery_ladder1_2 init in
let nq = montgomery_ladder1_0 k q nq nqp1 in
montgomery_ladder1_1 nq | false |
Spec.Ed25519.fst | Spec.Ed25519.aff_point_c | val aff_point_c : Type0 | let aff_point_c = p:aff_point{is_on_curve p} | {
"file_name": "specs/Spec.Ed25519.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 44,
"end_line": 34,
"start_col": 0,
"start_line": 34
} | module Spec.Ed25519
open FStar.Mul
open Lib.IntTypes
open Lib.Sequence
open Lib.ByteSequence
open Spec.Curve25519
module LE = Lib.Exponentiation
module SE = Spec.Exponentiation
module EL = Spec.Ed25519.Lemmas
include Spec.Ed25519.PointOps
#reset-options "--fuel 0 --ifuel 0 --z3rlimit 100"
inline_for_extraction
let size_signature: size_nat = 64
let q: n:nat{n < pow2 256} =
assert_norm(pow2 252 + 27742317777372353535851937790883648493 < pow2 255 - 19);
(pow2 252 + 27742317777372353535851937790883648493) // Group order
let max_input_length_sha512 = Some?.v (Spec.Hash.Definitions.max_input_length Spec.Hash.Definitions.SHA2_512)
let _: squash(max_input_length_sha512 > pow2 32 + 64) =
assert_norm (max_input_length_sha512 > pow2 32 + 64)
let sha512_modq (len:nat{len <= max_input_length_sha512}) (s:bytes{length s = len}) : n:nat{n < pow2 256} =
nat_from_bytes_le (Spec.Agile.Hash.hash Spec.Hash.Definitions.SHA2_512 s) % q
/// Point Multiplication | {
"checked_file": "/",
"dependencies": [
"Spec.Hash.Definitions.fst.checked",
"Spec.Exponentiation.fsti.checked",
"Spec.Ed25519.PointOps.fst.checked",
"Spec.Ed25519.Lemmas.fsti.checked",
"Spec.Curve25519.fst.checked",
"Spec.Agile.Hash.fsti.checked",
"prims.fst.checked",
"Lib.Sequence.fsti.checked",
"Lib.IntTypes.fsti.checked",
"Lib.Exponentiation.fsti.checked",
"Lib.ByteSequence.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked"
],
"interface_file": false,
"source_file": "Spec.Ed25519.fst"
} | [
{
"abbrev": false,
"full_module": "Spec.Ed25519.PointOps",
"short_module": null
},
{
"abbrev": true,
"full_module": "Spec.Ed25519.Lemmas",
"short_module": "EL"
},
{
"abbrev": true,
"full_module": "Spec.Exponentiation",
"short_module": "SE"
},
{
"abbrev": true,
"full_module": "Lib.Exponentiation",
"short_module": "LE"
},
{
"abbrev": false,
"full_module": "Spec.Curve25519",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib.ByteSequence",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib.Sequence",
"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": "Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "Spec",
"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": 100,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | Type0 | Prims.Tot | [
"total"
] | [] | [
"Spec.Ed25519.PointOps.aff_point",
"Spec.Ed25519.PointOps.is_on_curve"
] | [] | false | false | false | true | true | let aff_point_c =
| p: aff_point{is_on_curve p} | false |
|
Spec.Ed25519.fst | Spec.Ed25519.ext_point_c | val ext_point_c : Type0 | let ext_point_c = p:ext_point{point_inv p} | {
"file_name": "specs/Spec.Ed25519.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 42,
"end_line": 47,
"start_col": 0,
"start_line": 47
} | module Spec.Ed25519
open FStar.Mul
open Lib.IntTypes
open Lib.Sequence
open Lib.ByteSequence
open Spec.Curve25519
module LE = Lib.Exponentiation
module SE = Spec.Exponentiation
module EL = Spec.Ed25519.Lemmas
include Spec.Ed25519.PointOps
#reset-options "--fuel 0 --ifuel 0 --z3rlimit 100"
inline_for_extraction
let size_signature: size_nat = 64
let q: n:nat{n < pow2 256} =
assert_norm(pow2 252 + 27742317777372353535851937790883648493 < pow2 255 - 19);
(pow2 252 + 27742317777372353535851937790883648493) // Group order
let max_input_length_sha512 = Some?.v (Spec.Hash.Definitions.max_input_length Spec.Hash.Definitions.SHA2_512)
let _: squash(max_input_length_sha512 > pow2 32 + 64) =
assert_norm (max_input_length_sha512 > pow2 32 + 64)
let sha512_modq (len:nat{len <= max_input_length_sha512}) (s:bytes{length s = len}) : n:nat{n < pow2 256} =
nat_from_bytes_le (Spec.Agile.Hash.hash Spec.Hash.Definitions.SHA2_512 s) % q
/// Point Multiplication
let aff_point_c = p:aff_point{is_on_curve p}
let aff_point_add_c (p:aff_point_c) (q:aff_point_c) : aff_point_c =
EL.aff_point_add_lemma p q;
aff_point_add p q
let mk_ed25519_comm_monoid: LE.comm_monoid aff_point_c = {
LE.one = aff_point_at_infinity;
LE.mul = aff_point_add_c;
LE.lemma_one = EL.aff_point_at_infinity_lemma;
LE.lemma_mul_assoc = EL.aff_point_add_assoc_lemma;
LE.lemma_mul_comm = EL.aff_point_add_comm_lemma;
} | {
"checked_file": "/",
"dependencies": [
"Spec.Hash.Definitions.fst.checked",
"Spec.Exponentiation.fsti.checked",
"Spec.Ed25519.PointOps.fst.checked",
"Spec.Ed25519.Lemmas.fsti.checked",
"Spec.Curve25519.fst.checked",
"Spec.Agile.Hash.fsti.checked",
"prims.fst.checked",
"Lib.Sequence.fsti.checked",
"Lib.IntTypes.fsti.checked",
"Lib.Exponentiation.fsti.checked",
"Lib.ByteSequence.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked"
],
"interface_file": false,
"source_file": "Spec.Ed25519.fst"
} | [
{
"abbrev": false,
"full_module": "Spec.Ed25519.PointOps",
"short_module": null
},
{
"abbrev": true,
"full_module": "Spec.Ed25519.Lemmas",
"short_module": "EL"
},
{
"abbrev": true,
"full_module": "Spec.Exponentiation",
"short_module": "SE"
},
{
"abbrev": true,
"full_module": "Lib.Exponentiation",
"short_module": "LE"
},
{
"abbrev": false,
"full_module": "Spec.Curve25519",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib.ByteSequence",
"short_module": null
},
{
"abbrev": false,
"full_module": "Lib.Sequence",
"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": "Spec",
"short_module": null
},
{
"abbrev": false,
"full_module": "Spec",
"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": 100,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false | Type0 | Prims.Tot | [
"total"
] | [] | [
"Spec.Ed25519.PointOps.ext_point",
"Spec.Ed25519.PointOps.point_inv"
] | [] | false | false | false | true | true | let ext_point_c =
| p: ext_point{point_inv p} | false |
|
Vale.PPC64LE.InsStack.fst | Vale.PPC64LE.InsStack.va_wpProof_Alloc_stack | val va_wpProof_Alloc_stack : n:nat64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Alloc_stack n va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Alloc_stack n) ([va_Mod_reg 1]) va_s0
va_k ((va_sM, va_f0, va_g)))) | val va_wpProof_Alloc_stack : n:nat64 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Alloc_stack n va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Alloc_stack n) ([va_Mod_reg 1]) va_s0
va_k ((va_sM, va_f0, va_g)))) | let va_wpProof_Alloc_stack n va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Alloc_stack (va_code_Alloc_stack n) va_s0 n in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_reg 1 va_sM (va_update_ok va_sM va_s0)));
va_lemma_norm_mods ([va_Mod_reg 1]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"file_name": "obj/Vale.PPC64LE.InsStack.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 22,
"end_line": 44,
"start_col": 0,
"start_line": 38
} | module Vale.PPC64LE.InsStack
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
open Vale.PPC64LE.State
open Vale.PPC64LE.StateLemmas
open Vale.PPC64LE.Decls
open Vale.PPC64LE.InsBasic
open Vale.PPC64LE.InsVector
open Vale.PPC64LE.Stack_Sems
module S = Vale.PPC64LE.Semantics_s
module P = Vale.PPC64LE.Print_s
friend Vale.PPC64LE.Decls
friend Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Stack_Sems
#reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 200"
//-- Alloc_stack
[@ "opaque_to_smt"]
let va_code_Alloc_stack n =
(Ins (S.Alloc n))
[@ "opaque_to_smt"]
let va_codegen_success_Alloc_stack n =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Alloc_stack va_b0 va_s0 n =
va_reveal_opaque (`%va_code_Alloc_stack) (va_code_Alloc_stack n);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Alloc n)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Alloc n)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "/",
"dependencies": [
"Vale.PPC64LE.StateLemmas.fsti.checked",
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_Sems.fst.checked",
"Vale.PPC64LE.Stack_Sems.fst.checked",
"Vale.PPC64LE.Stack_i.fst.checked",
"Vale.PPC64LE.Stack_i.fst.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Print_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.checked",
"Vale.PPC64LE.InsVector.fsti.checked",
"Vale.PPC64LE.InsBasic.fsti.checked",
"Vale.PPC64LE.Decls.fst.checked",
"Vale.PPC64LE.Decls.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": true,
"source_file": "Vale.PPC64LE.InsStack.fst"
} | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Stack_Sems",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Stack_Sems",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.InsVector",
"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.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"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.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"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": 200,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
n: Vale.PPC64LE.Memory.nat64 ->
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.Memory.nat64",
"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_reg",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_reg",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsStack.va_lemma_Alloc_stack",
"Vale.PPC64LE.InsStack.va_code_Alloc_stack"
] | [] | false | false | false | false | false | let va_wpProof_Alloc_stack n va_s0 va_k =
| let va_sM, va_f0 = va_lemma_Alloc_stack (va_code_Alloc_stack n) va_s0 n in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_reg 1 va_sM (va_update_ok va_sM va_s0)));
va_lemma_norm_mods ([va_Mod_reg 1]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | false |
Steel.Channel.Simplex.fst | Steel.Channel.Simplex.new_chan | val new_chan (p:prot)
: SteelT (chan p) emp (fun c -> sender c p `star` receiver c p) | val new_chan (p:prot)
: SteelT (chan p) emp (fun c -> sender c p `star` receiver c p) | let new_chan (p:prot) : SteelT (chan p) emp (fun c -> sender c p `star` receiver c p)
= let q = msg unit p in
let v : chan_val = { chan_prot = q; chan_msg = (); chan_ctr = 0 } in
let vp : init_chan_val p = v in
let send = H.alloc v in
let recv = H.alloc v in
H.share recv;
H.share send;
(* TODO: use smt_fallback *)
rewrite_slprop (pts_to send (half_perm full_perm) v `star`
pts_to send (half_perm full_perm) v `star`
pts_to recv (half_perm full_perm) v `star`
pts_to recv (half_perm full_perm) v)
(pts_to send half vp `star`
pts_to send half vp `star`
pts_to recv half vp `star`
pts_to recv half vp)
(fun _ -> ());
let c = mk_chan send recv vp in
intro_in_state send p vp;
intro_in_state recv p vp;
let l = Steel.SpinLock.new_lock (chan_inv c) in
let ch = { chan_chan = c; chan_lock = l } in
rewrite_slprop (in_state send p) (sender ch p) (fun _ -> ());
rewrite_slprop (in_state recv p) (receiver ch p) (fun _ -> ());
return ch | {
"file_name": "lib/steel/Steel.Channel.Simplex.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 13,
"end_line": 241,
"start_col": 0,
"start_line": 216
} | (*
Copyright 2020 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.
*)
module Steel.Channel.Simplex
module P = Steel.Channel.Protocol
open Steel.SpinLock
open Steel.Memory
open Steel.Effect.Atomic
open Steel.Effect
open Steel.HigherReference
open Steel.FractionalPermission
module MRef = Steel.MonotonicHigherReference
module H = Steel.HigherReference
let sprot = p:prot { more p }
noeq
type chan_val = {
chan_prot : sprot;
chan_msg : msg_t chan_prot;
chan_ctr : nat
}
let mref a p = MRef.ref a p
let trace_ref (p:prot) = mref (partial_trace_of p) extended_to
noeq
type chan_t (p:prot) = {
send: ref chan_val;
recv: ref chan_val;
trace: trace_ref p;
}
let half : perm = half_perm full_perm
let step (s:sprot) (x:msg_t s) = step s x
let chan_inv_step_p (vrecv vsend:chan_val) : prop =
(vsend.chan_prot == step vrecv.chan_prot vrecv.chan_msg /\
vsend.chan_ctr == vrecv.chan_ctr + 1)
let chan_inv_step (vrecv vsend:chan_val) : vprop =
pure (chan_inv_step_p vrecv vsend)
let chan_inv_cond (vsend:chan_val) (vrecv:chan_val) : vprop =
if vsend.chan_ctr = vrecv.chan_ctr
then pure (vsend == vrecv)
else chan_inv_step vrecv vsend
let trace_until_prop #p (r:trace_ref p) (vr:chan_val) (tr: partial_trace_of p) : vprop =
MRef.pts_to r full_perm tr `star`
pure (until tr == step vr.chan_prot vr.chan_msg)
let trace_until #p (r:trace_ref p) (vr:chan_val) =
h_exists (trace_until_prop r vr)
let chan_inv_recv #p (c:chan_t p) (vsend:chan_val) =
h_exists (fun (vrecv:chan_val) ->
pts_to c.recv half vrecv `star`
trace_until c.trace vrecv `star`
chan_inv_cond vsend vrecv)
let chan_inv #p (c:chan_t p) : vprop =
h_exists (fun (vsend:chan_val) ->
pts_to c.send half vsend `star` chan_inv_recv c vsend)
let intro_chan_inv_cond_eqT (vs vr:chan_val)
: Steel unit emp
(fun _ -> chan_inv_cond vs vr)
(requires fun _ -> vs == vr)
(ensures fun _ _ _ -> True)
= intro_pure (vs == vs);
rewrite_slprop (chan_inv_cond vs vs) (chan_inv_cond vs vr) (fun _ -> ())
let intro_chan_inv_cond_stepT (vs vr:chan_val)
: SteelT unit (chan_inv_step vr vs)
(fun _ -> chan_inv_cond vs vr)
= Steel.Utils.extract_pure (chan_inv_step_p vr vs);
rewrite_slprop (chan_inv_step vr vs) (chan_inv_cond vs vr) (fun _ -> ())
let intro_chan_inv_auxT #p (#vs : chan_val)
(#vr : chan_val)
(c:chan_t p)
: SteelT unit (pts_to c.send half vs `star`
pts_to c.recv half vr `star`
trace_until c.trace vr `star`
chan_inv_cond vs vr)
(fun _ -> chan_inv c)
= intro_exists _ (fun (vr:chan_val) -> pts_to c.recv half vr `star` trace_until c.trace vr `star` chan_inv_cond vs vr);
intro_exists _ (fun (vs:chan_val) -> pts_to c.send half vs `star` chan_inv_recv c vs)
let intro_chan_inv_stepT #p (c:chan_t p) (vs vr:chan_val)
: SteelT unit (pts_to c.send half vs `star`
pts_to c.recv half vr `star`
trace_until c.trace vr `star`
chan_inv_step vr vs)
(fun _ -> chan_inv c)
= intro_chan_inv_cond_stepT vs vr;
intro_chan_inv_auxT c
let intro_chan_inv_eqT #p (c:chan_t p) (vs vr:chan_val)
: Steel unit (pts_to c.send half vs `star`
pts_to c.recv half vr `star`
trace_until c.trace vr)
(fun _ -> chan_inv c)
(requires fun _ -> vs == vr)
(ensures fun _ _ _ -> True)
= intro_chan_inv_cond_eqT vs vr;
intro_chan_inv_auxT c
noeq
type chan p = {
chan_chan : chan_t p;
chan_lock : lock (chan_inv chan_chan)
}
let in_state_prop (p:prot) (vsend:chan_val) : prop =
p == step vsend.chan_prot vsend.chan_msg
irreducible
let next_chan_val (#p:sprot) (x:msg_t p) (vs0:chan_val { in_state_prop p vs0 })
: Tot (vs:chan_val{in_state_prop (step p x) vs /\ chan_inv_step_p vs0 vs})
= {
chan_prot = (step vs0.chan_prot vs0.chan_msg);
chan_msg = x;
chan_ctr = vs0.chan_ctr + 1
}
[@@__reduce__]
let in_state_slprop (p:prot) (vsend:chan_val) : vprop = pure (in_state_prop p vsend)
let in_state (r:ref chan_val) (p:prot) =
h_exists (fun (vsend:chan_val) ->
pts_to r half vsend `star` in_state_slprop p vsend)
let sender #q (c:chan q) (p:prot) = in_state c.chan_chan.send p
let receiver #q (c:chan q) (p:prot) = in_state c.chan_chan.recv p
let intro_chan_inv #p (c:chan_t p) (v:chan_val)
: SteelT unit (pts_to c.send half v `star`
pts_to c.recv half v `star`
trace_until c.trace v)
(fun _ -> chan_inv c)
= intro_chan_inv_eqT c v v
let chan_val_p (p:prot) = (vs0:chan_val { in_state_prop p vs0 })
let intro_in_state (r:ref chan_val) (p:prot) (v:chan_val_p p)
: SteelT unit (pts_to r half v) (fun _ -> in_state r p)
= intro_pure (in_state_prop p v);
intro_exists v (fun (v:chan_val) -> pts_to r half v `star` in_state_slprop p v)
let msg t p = Msg Send unit (fun _ -> p)
let init_chan_val (p:prot) = v:chan_val {v.chan_prot == msg unit p}
let initial_trace (p:prot) : (q:partial_trace_of p {until q == p})
= { to = p; tr=Waiting p}
let intro_trace_until #q (r:trace_ref q) (tr:partial_trace_of q) (v:chan_val)
: Steel unit (MRef.pts_to r full_perm tr)
(fun _ -> trace_until r v)
(requires fun _ -> until tr == step v.chan_prot v.chan_msg)
(ensures fun _ _ _ -> True)
= intro_pure (until tr == step v.chan_prot v.chan_msg);
intro_exists tr
(fun (tr:partial_trace_of q) ->
MRef.pts_to r full_perm tr `star`
pure (until tr == (step v.chan_prot v.chan_msg)));
()
let chan_t_sr (p:prot) (send recv:ref chan_val) = (c:chan_t p{c.send == send /\ c.recv == recv})
let intro_trace_until_init #p (c:chan_t p) (v:init_chan_val p)
: SteelT unit (MRef.pts_to c.trace full_perm (initial_trace p))
(fun _ -> trace_until c.trace v)
= intro_pure (until (initial_trace p) == step v.chan_prot v.chan_msg);
//TODO: Not sure why I need this rewrite
rewrite_slprop (MRef.pts_to c.trace full_perm (initial_trace p) `star`
pure (until (initial_trace p) == step v.chan_prot v.chan_msg))
(MRef.pts_to c.trace full_perm (initial_trace p) `star`
pure (until (initial_trace p) == step v.chan_prot v.chan_msg))
(fun _ -> ());
intro_exists (initial_trace p) (trace_until_prop c.trace v)
let mk_chan (#p:prot) (send recv:ref chan_val) (v:init_chan_val p)
: SteelT (chan_t_sr p send recv)
(pts_to send half v `star` pts_to recv half v)
(fun c -> chan_inv c)
= let tr: trace_ref p = MRef.alloc (extended_to #p) (initial_trace p) in
let c = Mkchan_t send recv tr in
rewrite_slprop
(MRef.pts_to tr full_perm (initial_trace p))
(MRef.pts_to c.trace full_perm (initial_trace p)) (fun _ -> ());
intro_trace_until_init c v;
rewrite_slprop
(pts_to send half v `star` pts_to recv half v)
(pts_to c.send half v `star` pts_to c.recv half v)
(fun _ -> ());
intro_chan_inv #p c v;
let c' : chan_t_sr p send recv = c in
rewrite_slprop (chan_inv c) (chan_inv c') (fun _ -> ());
return c' | {
"checked_file": "/",
"dependencies": [
"Steel.Utils.fst.checked",
"Steel.SpinLock.fsti.checked",
"Steel.MonotonicHigherReference.fsti.checked",
"Steel.Memory.fsti.checked",
"Steel.HigherReference.fsti.checked",
"Steel.FractionalPermission.fst.checked",
"Steel.Effect.Atomic.fsti.checked",
"Steel.Effect.fsti.checked",
"Steel.Channel.Protocol.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": true,
"source_file": "Steel.Channel.Simplex.fst"
} | [
{
"abbrev": true,
"full_module": "Steel.HigherReference",
"short_module": "H"
},
{
"abbrev": true,
"full_module": "Steel.MonotonicHigherReference",
"short_module": "MRef"
},
{
"abbrev": false,
"full_module": "Steel.FractionalPermission",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.HigherReference",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Effect.Atomic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.SpinLock",
"short_module": null
},
{
"abbrev": true,
"full_module": "Steel.Channel.Protocol",
"short_module": "P"
},
{
"abbrev": false,
"full_module": "Steel.Effect",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Channel.Protocol",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Channel",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Channel",
"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 | p: Steel.Channel.Simplex.prot -> Steel.Effect.SteelT (Steel.Channel.Simplex.chan p) | Steel.Effect.SteelT | [] | [] | [
"Steel.Channel.Simplex.prot",
"Steel.Effect.Atomic.return",
"Steel.Channel.Simplex.chan",
"FStar.Ghost.hide",
"FStar.Set.set",
"Steel.Memory.iname",
"FStar.Set.empty",
"Steel.Effect.Common.VStar",
"Steel.Channel.Simplex.sender",
"Steel.Channel.Simplex.receiver",
"Steel.Effect.Common.vprop",
"Prims.unit",
"Steel.Effect.Atomic.rewrite_slprop",
"Steel.Channel.Simplex.in_state",
"Steel.Memory.mem",
"Steel.Channel.Simplex.Mkchan",
"Steel.SpinLock.lock",
"Steel.Channel.Simplex.chan_inv",
"Steel.SpinLock.new_lock",
"Steel.Channel.Simplex.intro_in_state",
"Steel.Channel.Simplex.chan_t_sr",
"Steel.Channel.Simplex.mk_chan",
"Steel.Effect.Common.star",
"Steel.HigherReference.pts_to",
"Steel.Channel.Simplex.chan_val",
"Steel.FractionalPermission.half_perm",
"Steel.FractionalPermission.full_perm",
"Steel.Channel.Simplex.half",
"Steel.HigherReference.share",
"Steel.HigherReference.ref",
"Steel.HigherReference.alloc",
"Steel.Channel.Simplex.init_chan_val",
"Steel.Channel.Simplex.Mkchan_val",
"Steel.Channel.Protocol.prot",
"Steel.Channel.Simplex.msg",
"Prims.eqtype",
"Steel.Effect.Common.emp"
] | [] | false | true | false | false | false | let new_chan (p: prot) : SteelT (chan p) emp (fun c -> (sender c p) `star` (receiver c p)) =
| let q = msg unit p in
let v:chan_val = { chan_prot = q; chan_msg = (); chan_ctr = 0 } in
let vp:init_chan_val p = v in
let send = H.alloc v in
let recv = H.alloc v in
H.share recv;
H.share send;
rewrite_slprop ((((pts_to send (half_perm full_perm) v) `star` (pts_to send (half_perm full_perm) v)
)
`star`
(pts_to recv (half_perm full_perm) v))
`star`
(pts_to recv (half_perm full_perm) v))
((((pts_to send half vp) `star` (pts_to send half vp)) `star` (pts_to recv half vp))
`star`
(pts_to recv half vp))
(fun _ -> ());
let c = mk_chan send recv vp in
intro_in_state send p vp;
intro_in_state recv p vp;
let l = Steel.SpinLock.new_lock (chan_inv c) in
let ch = { chan_chan = c; chan_lock = l } in
rewrite_slprop (in_state send p) (sender ch p) (fun _ -> ());
rewrite_slprop (in_state recv p) (receiver ch p) (fun _ -> ());
return ch | false |
FStar.Tactics.V2.Derived.fst | FStar.Tactics.V2.Derived.bv_to_string | val bv_to_string (bv: bv) : Tac string | val bv_to_string (bv: bv) : Tac string | let bv_to_string (bv : bv) : Tac string =
(* Could also print type...? *)
name_of_bv bv | {
"file_name": "ulib/FStar.Tactics.V2.Derived.fst",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 17,
"end_line": 39,
"start_col": 0,
"start_line": 37
} | (*
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.
*)
module FStar.Tactics.V2.Derived
open FStar.Reflection.V2
open FStar.Reflection.V2.Formula
open FStar.Tactics.Effect
open FStar.Stubs.Tactics.Types
open FStar.Stubs.Tactics.Result
open FStar.Stubs.Tactics.V2.Builtins
open FStar.Tactics.Util
open FStar.Tactics.V2.SyntaxHelpers
open FStar.VConfig
open FStar.Tactics.NamedView
open FStar.Tactics.V2.SyntaxCoercions
module L = FStar.List.Tot.Base
module V = FStar.Tactics.Visit
private let (@) = L.op_At
let name_of_bv (bv : bv) : Tac string =
unseal ((inspect_bv bv).ppname) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.VConfig.fsti.checked",
"FStar.Tactics.Visit.fst.checked",
"FStar.Tactics.V2.SyntaxHelpers.fst.checked",
"FStar.Tactics.V2.SyntaxCoercions.fst.checked",
"FStar.Tactics.Util.fst.checked",
"FStar.Tactics.NamedView.fsti.checked",
"FStar.Tactics.Effect.fsti.checked",
"FStar.Stubs.Tactics.V2.Builtins.fsti.checked",
"FStar.Stubs.Tactics.Types.fsti.checked",
"FStar.Stubs.Tactics.Result.fsti.checked",
"FStar.Squash.fsti.checked",
"FStar.Reflection.V2.Formula.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Range.fsti.checked",
"FStar.PropositionalExtensionality.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.Base.fst.checked"
],
"interface_file": false,
"source_file": "FStar.Tactics.V2.Derived.fst"
} | [
{
"abbrev": true,
"full_module": "FStar.Tactics.Visit",
"short_module": "V"
},
{
"abbrev": true,
"full_module": "FStar.List.Tot.Base",
"short_module": "L"
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2.SyntaxCoercions",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.NamedView",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.VConfig",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2.SyntaxHelpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.Util",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Stubs.Tactics.V2.Builtins",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Stubs.Tactics.Result",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Stubs.Tactics.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.Effect",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.V2.Formula",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2",
"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 | bv: FStar.Tactics.NamedView.bv -> FStar.Tactics.Effect.Tac Prims.string | FStar.Tactics.Effect.Tac | [] | [] | [
"FStar.Tactics.NamedView.bv",
"FStar.Tactics.V2.Derived.name_of_bv",
"Prims.string"
] | [] | false | true | false | false | false | let bv_to_string (bv: bv) : Tac string =
| name_of_bv bv | false |
CQueue.LList.fst | CQueue.LList.cllist_ptrvalue_null | val cllist_ptrvalue_null (a: Type0) : Tot (cllist_ptrvalue a) | val cllist_ptrvalue_null (a: Type0) : Tot (cllist_ptrvalue a) | let cllist_ptrvalue_null a = {head = null; tail = null; all_or_none_null = ()} | {
"file_name": "share/steel/examples/steel/CQueue.LList.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 78,
"end_line": 10,
"start_col": 0,
"start_line": 10
} | module CQueue.LList
noeq
type cllist_ptrvalue (a: Type0) = {
head: ref (ccell_ptrvalue a);
tail: ref (ref (ccell_ptrvalue a));
all_or_none_null: squash (is_null head == is_null tail);
} | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": true,
"source_file": "CQueue.LList.fst"
} | [
{
"abbrev": false,
"full_module": "Steel.Reference",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.FractionalPermission",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Effect",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Effect.Atomic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "CQueue.Cell",
"short_module": null
},
{
"abbrev": false,
"full_module": "CQueue",
"short_module": null
},
{
"abbrev": false,
"full_module": "CQueue",
"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: Type0 -> CQueue.LList.cllist_ptrvalue a | Prims.Tot | [
"total"
] | [] | [
"CQueue.LList.Mkcllist_ptrvalue",
"Steel.Reference.null",
"CQueue.Cell.ccell_ptrvalue",
"Steel.Reference.ref",
"CQueue.LList.cllist_ptrvalue"
] | [] | false | false | false | true | false | let cllist_ptrvalue_null a =
| { head = null; tail = null; all_or_none_null = () } | false |
FStar.Tactics.V2.Derived.fst | FStar.Tactics.V2.Derived.op_At | val op_At : x: Prims.list _ -> y: Prims.list _ -> Prims.list _ | let (@) = L.op_At | {
"file_name": "ulib/FStar.Tactics.V2.Derived.fst",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 25,
"end_line": 32,
"start_col": 8,
"start_line": 32
} | (*
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.
*)
module FStar.Tactics.V2.Derived
open FStar.Reflection.V2
open FStar.Reflection.V2.Formula
open FStar.Tactics.Effect
open FStar.Stubs.Tactics.Types
open FStar.Stubs.Tactics.Result
open FStar.Stubs.Tactics.V2.Builtins
open FStar.Tactics.Util
open FStar.Tactics.V2.SyntaxHelpers
open FStar.VConfig
open FStar.Tactics.NamedView
open FStar.Tactics.V2.SyntaxCoercions
module L = FStar.List.Tot.Base | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.VConfig.fsti.checked",
"FStar.Tactics.Visit.fst.checked",
"FStar.Tactics.V2.SyntaxHelpers.fst.checked",
"FStar.Tactics.V2.SyntaxCoercions.fst.checked",
"FStar.Tactics.Util.fst.checked",
"FStar.Tactics.NamedView.fsti.checked",
"FStar.Tactics.Effect.fsti.checked",
"FStar.Stubs.Tactics.V2.Builtins.fsti.checked",
"FStar.Stubs.Tactics.Types.fsti.checked",
"FStar.Stubs.Tactics.Result.fsti.checked",
"FStar.Squash.fsti.checked",
"FStar.Reflection.V2.Formula.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Range.fsti.checked",
"FStar.PropositionalExtensionality.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.Base.fst.checked"
],
"interface_file": false,
"source_file": "FStar.Tactics.V2.Derived.fst"
} | [
{
"abbrev": true,
"full_module": "FStar.Tactics.Visit",
"short_module": "V"
},
{
"abbrev": true,
"full_module": "FStar.List.Tot.Base",
"short_module": "L"
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2.SyntaxCoercions",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.NamedView",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.VConfig",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2.SyntaxHelpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.Util",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Stubs.Tactics.V2.Builtins",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Stubs.Tactics.Result",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Stubs.Tactics.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.Effect",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.V2.Formula",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2",
"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 | x: Prims.list _ -> y: Prims.list _ -> Prims.list _ | Prims.Tot | [
"total"
] | [] | [
"FStar.List.Tot.Base.op_At",
"Prims.list"
] | [] | false | false | false | true | false | <UNK> | <UNK> | false |
|
FStar.Tactics.V2.Derived.fst | FStar.Tactics.V2.Derived.name_of_binder | val name_of_binder (b: binder) : Tac string | val name_of_binder (b: binder) : Tac string | let name_of_binder (b : binder) : Tac string =
unseal b.ppname | {
"file_name": "ulib/FStar.Tactics.V2.Derived.fst",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 17,
"end_line": 42,
"start_col": 0,
"start_line": 41
} | (*
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.
*)
module FStar.Tactics.V2.Derived
open FStar.Reflection.V2
open FStar.Reflection.V2.Formula
open FStar.Tactics.Effect
open FStar.Stubs.Tactics.Types
open FStar.Stubs.Tactics.Result
open FStar.Stubs.Tactics.V2.Builtins
open FStar.Tactics.Util
open FStar.Tactics.V2.SyntaxHelpers
open FStar.VConfig
open FStar.Tactics.NamedView
open FStar.Tactics.V2.SyntaxCoercions
module L = FStar.List.Tot.Base
module V = FStar.Tactics.Visit
private let (@) = L.op_At
let name_of_bv (bv : bv) : Tac string =
unseal ((inspect_bv bv).ppname)
let bv_to_string (bv : bv) : Tac string =
(* Could also print type...? *)
name_of_bv bv | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.VConfig.fsti.checked",
"FStar.Tactics.Visit.fst.checked",
"FStar.Tactics.V2.SyntaxHelpers.fst.checked",
"FStar.Tactics.V2.SyntaxCoercions.fst.checked",
"FStar.Tactics.Util.fst.checked",
"FStar.Tactics.NamedView.fsti.checked",
"FStar.Tactics.Effect.fsti.checked",
"FStar.Stubs.Tactics.V2.Builtins.fsti.checked",
"FStar.Stubs.Tactics.Types.fsti.checked",
"FStar.Stubs.Tactics.Result.fsti.checked",
"FStar.Squash.fsti.checked",
"FStar.Reflection.V2.Formula.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Range.fsti.checked",
"FStar.PropositionalExtensionality.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.Base.fst.checked"
],
"interface_file": false,
"source_file": "FStar.Tactics.V2.Derived.fst"
} | [
{
"abbrev": true,
"full_module": "FStar.Tactics.Visit",
"short_module": "V"
},
{
"abbrev": true,
"full_module": "FStar.List.Tot.Base",
"short_module": "L"
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2.SyntaxCoercions",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.NamedView",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.VConfig",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2.SyntaxHelpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.Util",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Stubs.Tactics.V2.Builtins",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Stubs.Tactics.Result",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Stubs.Tactics.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.Effect",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.V2.Formula",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2",
"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 | b: FStar.Tactics.NamedView.binder -> FStar.Tactics.Effect.Tac Prims.string | FStar.Tactics.Effect.Tac | [] | [] | [
"FStar.Tactics.NamedView.binder",
"FStar.Tactics.Unseal.unseal",
"Prims.string",
"FStar.Tactics.NamedView.__proj__Mkbinder__item__ppname"
] | [] | false | true | false | false | false | let name_of_binder (b: binder) : Tac string =
| unseal b.ppname | false |
Vale.AES.X64.AESopt.fst | Vale.AES.X64.AESopt.va_qcode_Loop6x_final | val va_qcode_Loop6x_final
(va_mods: va_mods_t)
(alg: algorithm)
(iv_b scratch_b: buffer128)
(key_words: (seq nat32))
(round_keys: (seq quad32))
(keys_b: buffer128)
(ctr_orig: quad32)
(init ctrs plain: quad32_6)
(inb: quad32)
: (va_quickCode unit (va_code_Loop6x_final alg)) | val va_qcode_Loop6x_final
(va_mods: va_mods_t)
(alg: algorithm)
(iv_b scratch_b: buffer128)
(key_words: (seq nat32))
(round_keys: (seq quad32))
(keys_b: buffer128)
(ctr_orig: quad32)
(init ctrs plain: quad32_6)
(inb: quad32)
: (va_quickCode unit (va_code_Loop6x_final alg)) | let va_qcode_Loop6x_final (va_mods:va_mods_t) (alg:algorithm) (iv_b:buffer128)
(scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128)
(ctr_orig:quad32) (init:quad32_6) (ctrs:quad32_6) (plain:quad32_6) (inb:quad32) : (va_quickCode
unit (va_code_Loop6x_final alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 667 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.Arch.TypesNative.lemma_quad32_xor_commutes_forall ()) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 669 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 1) (va_op_reg_opr64_reg64
rRbp) 128 Secret scratch_b 8) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 671 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 2)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 672 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_load_one_msb ()) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 673 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 674 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 675 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR13) (7 `op_Multiply` 16) Secret false scratch_b 7) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 676 column 13 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96))
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 677 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 678 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 5) (va_op_xmm_xmm 0) (va_op_xmm_xmm 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 679 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR12) (7 `op_Multiply` 16 + 8) Secret true scratch_b 7) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 680 column 13 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_AddLea64 (va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96))
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 681 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15)
(va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret keys_b 0) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 683 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 6)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 684 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 6) (va_op_xmm_xmm 5) (va_op_xmm_xmm 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 685 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 7)) (va_QSeq
va_range1
"***** PRECONDITION NOT MET AT line 686 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 7) (va_op_xmm_xmm 6) (va_op_xmm_xmm 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 687 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_QBind
va_range1
"***** PRECONDITION NOT MET AT line 688 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 3) (va_op_xmm_xmm 7) (va_op_xmm_xmm 2)) (fun (va_s:va_state) _
-> let (va_arg117:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let
(va_arg116:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_s in let
(va_arg115:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_old_s in let
(va_arg114:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___1 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 init in let (va_arg113:Vale.Def.Types_s.quad32) =
__proj__Mktuple6__item___1 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let
(va_arg112:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___1 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 ctrs in let (va_arg111:Vale.AES.AES_common_s.algorithm) = alg in
va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 690 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg111 va_arg112 va_arg113 va_arg114
va_arg115 va_arg116 va_arg117) (let (va_arg110:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg109:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in let
(va_arg108:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_old_s in let
(va_arg107:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___2 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 init in let (va_arg106:Vale.Def.Types_s.quad32) =
__proj__Mktuple6__item___2 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let
(va_arg105:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___2 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 ctrs in let (va_arg104:Vale.AES.AES_common_s.algorithm) = alg in
va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 691 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg104 va_arg105 va_arg106 va_arg107
va_arg108 va_arg109 va_arg110) (let (va_arg103:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg102:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in let
(va_arg101:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_old_s in let
(va_arg100:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___3 #quad32 #quad32 #quad32
#quad32 #quad32 #quad32 init in let (va_arg99:Vale.Def.Types_s.quad32) =
__proj__Mktuple6__item___3 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let
(va_arg98:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___3 #quad32 #quad32 #quad32 #quad32
#quad32 #quad32 ctrs in let (va_arg97:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE
va_range1
"***** PRECONDITION NOT MET AT line 692 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg97 va_arg98 va_arg99 va_arg100
va_arg101 va_arg102 va_arg103) (let (va_arg96:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg95:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in let
(va_arg94:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_old_s in let
(va_arg93:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___4 #quad32 #quad32 #quad32 #quad32
#quad32 #quad32 init in let (va_arg92:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___4
#quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let (va_arg91:Vale.Def.Types_s.quad32)
= __proj__Mktuple6__item___4 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs in let
(va_arg90:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 693 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg90 va_arg91 va_arg92 va_arg93
va_arg94 va_arg95 va_arg96) (let (va_arg89:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg88:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in let
(va_arg87:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_old_s in let
(va_arg86:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___5 #quad32 #quad32 #quad32 #quad32
#quad32 #quad32 init in let (va_arg85:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___5
#quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let (va_arg84:Vale.Def.Types_s.quad32)
= __proj__Mktuple6__item___5 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs in let
(va_arg83:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 694 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg83 va_arg84 va_arg85 va_arg86
va_arg87 va_arg88 va_arg89) (let (va_arg82:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) =
round_keys in let (va_arg81:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let
(va_arg80:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_old_s in let
(va_arg79:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___6 #quad32 #quad32 #quad32 #quad32
#quad32 #quad32 init in let (va_arg78:Vale.Def.Types_s.quad32) = __proj__Mktuple6__item___6
#quad32 #quad32 #quad32 #quad32 #quad32 #quad32 plain in let (va_arg77:Vale.Def.Types_s.quad32)
= __proj__Mktuple6__item___6 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs in let
(va_arg76:Vale.AES.AES_common_s.algorithm) = alg in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 695 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.finish_cipher_opt va_arg76 va_arg77 va_arg78 va_arg79
va_arg80 va_arg81 va_arg82) (va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 696 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___1 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___1 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___1 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 697 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___2 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___2 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___2 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 698 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___3 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___3 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___3 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 699 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___4 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___4 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___4 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 700 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___5 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___5 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___5 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(va_QLemma va_range1
"***** PRECONDITION NOT MET AT line 701 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) -> Vale.AES.AES_s.is_aes_key_LE alg
key) alg (__proj__Mktuple6__item___6 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs)
key_words) (fun _ -> (fun (alg:algorithm) (input_LE:quad32) (key:(seq nat32)) ->
Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg input_LE
(Vale.AES.AES_s.key_to_round_keys_LE alg key)) alg (__proj__Mktuple6__item___6 #quad32 #quad32
#quad32 #quad32 #quad32 #quad32 ctrs) key_words) (fun (_:unit) -> finish_aes_encrypt_le alg
(__proj__Mktuple6__item___6 #quad32 #quad32 #quad32 #quad32 #quad32 #quad32 ctrs) key_words)
(let (va_arg75:Vale.Def.Types_s.quad32) = Vale.X64.Decls.buffer128_read scratch_b 7
(va_get_mem_heaplet 3 va_s) in let (va_arg74:Vale.Def.Types_s.quad32) =
Vale.X64.Decls.buffer128_read scratch_b 7 (va_get_mem_heaplet 3 va_old_s) in let
(va_arg73:Vale.Def.Types_s.quad32) = inb in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 703 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.Arch.Types.lemma_reverse_bytes_quad32_64 va_arg73 va_arg74 va_arg75) (let
(va_arg72:Vale.Def.Types_s.quad32) = va_get_xmm 0 va_s in let
(va_arg71:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg70:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 705 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg70 va_arg71 va_arg72 1) (let
(va_arg69:Vale.Def.Types_s.quad32) = va_get_xmm 5 va_s in let
(va_arg68:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg67:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 706 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg67 va_arg68 va_arg69 2) (let
(va_arg66:Vale.Def.Types_s.quad32) = va_get_xmm 6 va_s in let
(va_arg65:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg64:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 707 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg64 va_arg65 va_arg66 3) (let
(va_arg63:Vale.Def.Types_s.quad32) = va_get_xmm 7 va_s in let
(va_arg62:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg61:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 708 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg61 va_arg62 va_arg63 4) (let
(va_arg60:Vale.Def.Types_s.quad32) = va_get_xmm 3 va_s in let
(va_arg59:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg58:Vale.Def.Types_s.quad32) = ctr_orig in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 709 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_incr_msb va_arg58 va_arg59 va_arg60 5) (va_QEmpty
(())))))))))))))))))))))))))))))))))))))))) | {
"file_name": "obj/Vale.AES.X64.AESopt.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 47,
"end_line": 1613,
"start_col": 0,
"start_line": 1409
} | module Vale.AES.X64.AESopt
open FStar.Mul
open Vale.Def.Prop_s
open Vale.Def.Opaque_s
open Vale.Def.Words_s
open Vale.Def.Types_s
open FStar.Seq
open Vale.Arch.Types
open Vale.Arch.HeapImpl
open Vale.AES.AES_s
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.InsVector
open Vale.X64.InsAes
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.AES.AES_helpers
//open Vale.Poly1305.Math // For lemma_poly_bits64()
open Vale.AES.GCM_helpers
open Vale.AES.GCTR_s
open Vale.AES.GCTR
open Vale.Arch.TypesNative
open Vale.X64.CPU_Features_s
open Vale.Math.Poly2_s
open Vale.AES.GF128_s
open Vale.AES.GF128
open Vale.AES.GHash
open Vale.AES.X64.PolyOps
open Vale.AES.X64.AESopt2
open Vale.AES.X64.AESGCM_expected_code
open Vale.Transformers.Transform
open FStar.Mul
let add = Vale.Math.Poly2_s.add
#reset-options "--z3rlimit 30"
//-- finish_aes_encrypt_le
val finish_aes_encrypt_le : alg:algorithm -> input_LE:quad32 -> key:(seq nat32)
-> Lemma
(requires (Vale.AES.AES_s.is_aes_key_LE alg key))
(ensures (Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg
input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)))
let finish_aes_encrypt_le alg input_LE key =
Vale.AES.AES_s.aes_encrypt_LE_reveal ();
Vale.AES.AES_s.eval_cipher_reveal ();
()
//--
//-- Load_two_lsb
[@ "opaque_to_smt"]
let va_code_Load_two_lsb dst =
(va_Block (va_CCons (va_code_ZeroXmm dst) (va_CCons (va_code_PinsrqImm dst 2 0
(va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
[@ "opaque_to_smt"]
let va_codegen_success_Load_two_lsb dst =
(va_pbool_and (va_codegen_success_ZeroXmm dst) (va_pbool_and (va_codegen_success_PinsrqImm dst 2
0 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ())))
[@"opaque_to_smt"]
let va_lemma_Load_two_lsb va_b0 va_s0 dst =
va_reveal_opaque (`%va_code_Load_two_lsb) (va_code_Load_two_lsb dst);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s3, va_fc3) = va_lemma_ZeroXmm (va_hd va_b1) va_s0 dst in
let va_b3 = va_tl va_b1 in
Vale.Arch.Types.lemma_insert_nat64_nat32s (va_eval_xmm va_s3 dst) 2 0;
assert (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 2 0) == 2);
let (va_s6, va_fc6) = va_lemma_PinsrqImm (va_hd va_b3) va_s3 dst 2 0 (va_op_reg_opr64_reg64 rR11)
in
let va_b6 = va_tl va_b3 in
let (va_sM, va_f6) = va_lemma_empty_total va_s6 va_b6 in
let va_f3 = va_lemma_merge_total va_b3 va_s3 va_fc6 va_s6 va_f6 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc3 va_s3 va_f3 va_sM in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Load_two_lsb dst va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_two_lsb (va_code_Load_two_lsb dst) va_s0 dst in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Load_0xc2_msb
val va_code_Load_0xc2_msb : dst:va_operand_xmm -> Tot va_code
[@ "opaque_to_smt"]
let va_code_Load_0xc2_msb dst =
(va_Block (va_CCons (va_code_ZeroXmm dst) (va_CCons (va_code_PinsrqImm dst 13979173243358019584 1
(va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
val va_codegen_success_Load_0xc2_msb : dst:va_operand_xmm -> Tot va_pbool
[@ "opaque_to_smt"]
let va_codegen_success_Load_0xc2_msb dst =
(va_pbool_and (va_codegen_success_ZeroXmm dst) (va_pbool_and (va_codegen_success_PinsrqImm dst
13979173243358019584 1 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ())))
val va_lemma_Load_0xc2_msb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load_0xc2_msb dst) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 3254779904 /\
va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))))
[@"opaque_to_smt"]
let va_lemma_Load_0xc2_msb va_b0 va_s0 dst =
va_reveal_opaque (`%va_code_Load_0xc2_msb) (va_code_Load_0xc2_msb dst);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s3, va_fc3) = va_lemma_ZeroXmm (va_hd va_b1) va_s0 dst in
let va_b3 = va_tl va_b1 in
assert (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 0
3254779904) == 13979173243358019584);
Vale.Arch.Types.lemma_insert_nat64_nat32s (va_eval_xmm va_s3 dst) 0 3254779904;
let (va_s6, va_fc6) = va_lemma_PinsrqImm (va_hd va_b3) va_s3 dst 13979173243358019584 1
(va_op_reg_opr64_reg64 rR11) in
let va_b6 = va_tl va_b3 in
let (va_sM, va_f6) = va_lemma_empty_total va_s6 va_b6 in
let va_f3 = va_lemma_merge_total va_b3 va_s3 va_fc6 va_s6 va_f6 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc3 va_s3 va_f3 va_sM in
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Load_0xc2_msb (dst:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_dst:va_value_xmm)
(va_x_r11:nat64) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_reg64
rR11 va_x_r11 (va_upd_operand_xmm dst va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM
dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 3254779904 ==> va_k va_sM (())))
val va_wpProof_Load_0xc2_msb : dst:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit ->
Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Load_0xc2_msb dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load_0xc2_msb dst) ([va_Mod_flags;
va_Mod_reg64 rR11; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Load_0xc2_msb dst va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_0xc2_msb (va_code_Load_0xc2_msb dst) va_s0 dst in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Load_0xc2_msb (dst:va_operand_xmm) : (va_quickCode unit (va_code_Load_0xc2_msb dst)) =
(va_QProc (va_code_Load_0xc2_msb dst) ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst])
(va_wp_Load_0xc2_msb dst) (va_wpProof_Load_0xc2_msb dst))
//--
//-- Load_one_lsb
[@ "opaque_to_smt"]
let va_code_Load_one_lsb dst =
(va_Block (va_CCons (va_code_ZeroXmm dst) (va_CCons (va_code_PinsrqImm dst 1 0
(va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
[@ "opaque_to_smt"]
let va_codegen_success_Load_one_lsb dst =
(va_pbool_and (va_codegen_success_ZeroXmm dst) (va_pbool_and (va_codegen_success_PinsrqImm dst 1
0 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ())))
[@"opaque_to_smt"]
let va_lemma_Load_one_lsb va_b0 va_s0 dst =
va_reveal_opaque (`%va_code_Load_one_lsb) (va_code_Load_one_lsb dst);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s3, va_fc3) = va_lemma_ZeroXmm (va_hd va_b1) va_s0 dst in
let va_b3 = va_tl va_b1 in
Vale.Arch.Types.lemma_insert_nat64_nat32s (va_eval_xmm va_s3 dst) 1 0;
assert (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 1 0) == 1);
let (va_s6, va_fc6) = va_lemma_PinsrqImm (va_hd va_b3) va_s3 dst 1 0 (va_op_reg_opr64_reg64 rR11)
in
let va_b6 = va_tl va_b3 in
let (va_sM, va_f6) = va_lemma_empty_total va_s6 va_b6 in
let va_f3 = va_lemma_merge_total va_b3 va_s3 va_fc6 va_s6 va_f6 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc3 va_s3 va_f3 va_sM in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Load_one_lsb dst va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_one_lsb (va_code_Load_one_lsb dst) va_s0 dst in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Handle_ctr32
val va_code_Handle_ctr32 : va_dummy:unit -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Handle_ctr32 () =
(va_Block (va_CCons (va_code_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR11))
(va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons
(va_code_Load_one_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10)
(va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_Load_two_lsb (va_op_xmm_xmm 5))
(va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CNil
()))))))))))))))))))))
val va_codegen_success_Handle_ctr32 : va_dummy:unit -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Handle_ctr32 () =
(va_pbool_and (va_codegen_success_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR11))
(va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm
0)) (va_pbool_and (va_codegen_success_Load_one_lsb (va_op_xmm_xmm 5)) (va_pbool_and
(va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5))
(va_pbool_and (va_codegen_success_Load_two_lsb (va_op_xmm_xmm 5)) (va_pbool_and
(va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5))
(va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm
5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10)
(va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm
11) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm
10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_pbool_and (va_codegen_success_VPaddd
(va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_pbool_and
(va_codegen_success_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0))
(va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm
15)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13)
(va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm
13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 14)
(va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm
1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_ttrue ())))))))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Handle_ctr32 (va_mods:va_mods_t) (ctr_BE:quad32) : (va_quickCode unit
(va_code_Handle_ctr32 ())) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 256 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR11)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 257 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 261 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load_one_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 262 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 263 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load_two_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 264 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 265 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 266 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 267 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 268 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 269 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 270 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 271 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 272 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 273 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 274 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 275 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 276 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QEmpty
(())))))))))))))))))))))
val va_lemma_Handle_ctr32 : va_b0:va_code -> va_s0:va_state -> ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Handle_ctr32 ()) va_s0 /\ va_get_ok va_s0 /\
(avx_enabled /\ sse_enabled /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32
ctr_BE)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM, va_get_xmm
14 va_sM, va_get_xmm 1 va_sM) == xor_reverse_inc32lite_6 2 1 ctr_BE (va_get_xmm 15 va_sM) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM
(va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM
(va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Handle_ctr32 va_b0 va_s0 ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm
11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR11; va_Mod_ok] in
let va_qc = va_qcode_Handle_ctr32 va_mods ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Handle_ctr32 ()) va_qc va_s0 (fun va_s0
va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 234 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 254 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM,
va_get_xmm 14 va_sM, va_get_xmm 1 va_sM) == xor_reverse_inc32lite_6 2 1 ctr_BE (va_get_xmm 15
va_sM))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Handle_ctr32 (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE) /\ (forall (va_x_r11:nat64) (va_x_xmm0:quad32)
(va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm10:quad32)
(va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14
(va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10
va_x_xmm10 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm
1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR11 va_x_r11 va_s0))))))))))) in va_get_ok
va_sM /\ (va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM,
va_get_xmm 14 va_sM, va_get_xmm 1 va_sM) == xor_reverse_inc32lite_6 2 1 ctr_BE (va_get_xmm 15
va_sM) ==> va_k va_sM (())))
val va_wpProof_Handle_ctr32 : ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Handle_ctr32 ctr_BE va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Handle_ctr32 ()) ([va_Mod_flags;
va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM,
va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Handle_ctr32 ctr_BE va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Handle_ctr32 (va_code_Handle_ctr32 ()) va_s0 ctr_BE in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM
(va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM
(va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR11]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Handle_ctr32 (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32 ())) =
(va_QProc (va_code_Handle_ctr32 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12;
va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1;
va_Mod_xmm 0; va_Mod_reg64 rR11]) (va_wp_Handle_ctr32 ctr_BE) (va_wpProof_Handle_ctr32 ctr_BE))
//--
//-- Loop6x_ctr_update
val va_code_Loop6x_ctr_update : alg:algorithm -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_ctr_update alg =
(va_Block (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (va_CCons
(va_IfElse (va_cmp_ge (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (va_Block (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret) (va_CCons (va_code_Handle_ctr32 ()) (va_CCons (va_code_Sub64
(va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_CNil ()))))) (va_Block (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)
(va_op_xmm_xmm 14)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10)
(va_op_opr128_xmm 15)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11)
(va_op_opr128_xmm 15)) (va_CNil ()))))))) (va_CNil ()))))
val va_codegen_success_Loop6x_ctr_update : alg:algorithm -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_ctr_update alg =
(va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6))
(va_pbool_and (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0)
(va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rR9) (0 - 32) Secret) (va_pbool_and
(va_codegen_success_Handle_ctr32 ()) (va_pbool_and (va_codegen_success_Sub64
(va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_pbool_and
(va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3)
(va_op_reg_opr64_reg64 rR9) (0 - 32) Secret) (va_pbool_and (va_codegen_success_VPaddd
(va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 14)) (va_pbool_and (va_codegen_success_VPxor
(va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_codegen_success_VPxor
(va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)))))))) (va_ttrue ())))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_ctr_update (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (key_words:(seq
nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) :
(va_quickCode unit (va_code_Loop6x_ctr_update alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_QBind va_range1
"***** PRECONDITION NOT MET AT line 339 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (fun (va_s:va_state) _ ->
va_QBind va_range1
"***** PRECONDITION NOT MET AT line 340 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_qIf va_mods (Cmp_ge (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (qblock va_mods (fun
(va_s:va_state) -> va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 341 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret hkeys_b 0) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 342 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Handle_ctr32 ctr_BE) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 343 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_QEmpty (())))))) (qblock
va_mods (fun (va_s:va_state) -> va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 345 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret hkeys_b 0) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 346 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 14)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 347 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_QBind
va_range1
"***** PRECONDITION NOT MET AT line 348 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg36:Prims.nat) = va_get_reg64 rRbx va_old_s in let
(va_arg35:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg34:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let
(va_arg33:Vale.Def.Types_s.quad32) = ctr_BE in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 349 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_msb_in_bounds va_arg33 va_arg34 va_arg35 va_arg36)
(va_QEmpty (()))))))))) (fun (va_s:va_state) va_g -> va_QEmpty (())))))
val va_lemma_Loop6x_ctr_update : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 ->
key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 ->
ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_ctr_update alg) va_s0 /\ va_get_ok va_s0 /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ aes_reqs_offset alg key_words
round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout
va_s0) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216
/\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE
0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus`
256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_get_xmm 1 va_sM ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64
rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == xor_reverse_inc32lite_6 3 0 ctr_BE (va_get_xmm 15
va_sM) /\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0
va_sM)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13
va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9
va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1
va_sM (va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64 rR11 va_sM
(va_update_reg64 rRbx va_sM (va_update_ok va_sM va_s0))))))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_ctr_update va_b0 va_s0 alg h_LE key_words round_keys keys_b hkeys_b ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm
11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1;
va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok] in
let va_qc = va_qcode_Loop6x_ctr_update va_mods alg h_LE key_words round_keys keys_b hkeys_b
ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_ctr_update alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 279 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in label va_range1
"***** POSTCONDITION NOT MET AT line 330 column 57 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE
6)) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 331 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 332 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite
ctr_BE 6) `op_Modulus` 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 334 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == xor_reverse_inc32lite_6 3 0 ctr_BE (va_get_xmm 15 va_sM)) /\
label va_range1
"***** POSTCONDITION NOT MET AT line 335 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_sM))))
in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm
0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_ctr_update (alg:algorithm) (h_LE:quad32) (key_words:(seq nat32)) (round_keys:(seq
quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ aes_reqs_offset alg key_words
round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout
va_s0) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216
/\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE
0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus`
256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h) /\ (forall (va_x_rbx:nat64) (va_x_r11:nat64)
(va_x_xmm3:quad32) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32)
(va_x_xmm6:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32)
(va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm
12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9
(va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1
(va_upd_xmm 0 va_x_xmm0 (va_upd_xmm 3 va_x_xmm3 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx
va_x_rbx va_s0)))))))))))))) in va_get_ok va_sM /\ (let (h:Vale.Math.Poly2_s.poly) =
Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_get_xmm 1
va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <=
va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == xor_reverse_inc32lite_6 3 0 ctr_BE (va_get_xmm 15
va_sM) /\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0
va_sM)) ==> va_k va_sM (())))
val va_wpProof_Loop6x_ctr_update : alg:algorithm -> h_LE:quad32 -> key_words:(seq nat32) ->
round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE:quad32 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_ctr_update alg h_LE key_words round_keys keys_b
hkeys_b ctr_BE va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_ctr_update alg) ([va_Mod_flags;
va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9;
va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3;
va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_ctr_update (va_code_Loop6x_ctr_update alg) va_s0 alg h_LE
key_words round_keys keys_b hkeys_b ctr_BE in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM
(va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM
(va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx
va_sM (va_update_ok va_sM va_s0)))))))))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm
0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_ctr_update (alg:algorithm) (h_LE:quad32) (key_words:(seq nat32))
(round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) : (va_quickCode
unit (va_code_Loop6x_ctr_update alg)) =
(va_QProc (va_code_Loop6x_ctr_update alg) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5;
va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx])
(va_wp_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE)
(va_wpProof_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE))
//--
//-- Loop6x_plain
val va_code_Loop6x_plain : alg:algorithm -> rnd:nat -> rndkey:va_operand_xmm -> Tot va_code
[@ "opaque_to_smt"]
let va_code_Loop6x_plain alg rnd rndkey =
(va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) rndkey
(va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 1) - 128) Secret) (va_CCons
(va_code_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) rndkey) (va_CCons (va_code_VAESNI_enc
(va_op_xmm_xmm 10) (va_op_xmm_xmm 10) rndkey) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) rndkey) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12)
rndkey) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) rndkey) (va_CCons
(va_code_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) rndkey) (va_CNil ())))))))))
val va_codegen_success_Loop6x_plain : alg:algorithm -> rnd:nat -> rndkey:va_operand_xmm -> Tot
va_pbool
[@ "opaque_to_smt"]
let va_codegen_success_Loop6x_plain alg rnd rndkey =
(va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) rndkey
(va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 1) - 128) Secret) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) rndkey) (va_ttrue
()))))))))
val va_lemma_Loop6x_plain : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> rnd:nat ->
key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init:quad32_6 ->
rndkey:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_plain alg rnd rndkey) va_s0 /\ va_is_dst_xmm
rndkey va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ (rndkey == 1 \/ rndkey == 2 \/ rndkey == 15)
/\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 1 < FStar.Seq.Base.length
#quad32 round_keys /\ (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm
12 va_s0, va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == rounds_opaque_6 init round_keys rnd)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys (rnd + 1) /\ va_state_eq
va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12
va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok
va_sM (va_update_operand_xmm rndkey va_sM va_s0)))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_plain va_b0 va_s0 alg rnd key_words round_keys keys_b init rndkey =
va_reveal_opaque (`%va_code_Loop6x_plain) (va_code_Loop6x_plain alg rnd rndkey);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s9, va_fc9) = va_lemma_Load128_buffer (va_hd va_b1) va_s0 (va_op_heaplet_mem_heaplet 0)
rndkey (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 1) - 128) Secret keys_b (rnd + 1)
in
let va_b9 = va_tl va_b1 in
let (va_s10, va_fc10) = va_lemma_VAESNI_enc (va_hd va_b9) va_s9 (va_op_xmm_xmm 9) (va_op_xmm_xmm
9) rndkey in
let va_b10 = va_tl va_b9 in
let (va_s11, va_fc11) = va_lemma_VAESNI_enc (va_hd va_b10) va_s10 (va_op_xmm_xmm 10)
(va_op_xmm_xmm 10) rndkey in
let va_b11 = va_tl va_b10 in
let (va_s12, va_fc12) = va_lemma_VAESNI_enc (va_hd va_b11) va_s11 (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) rndkey in
let va_b12 = va_tl va_b11 in
let (va_s13, va_fc13) = va_lemma_VAESNI_enc (va_hd va_b12) va_s12 (va_op_xmm_xmm 12)
(va_op_xmm_xmm 12) rndkey in
let va_b13 = va_tl va_b12 in
let (va_s14, va_fc14) = va_lemma_VAESNI_enc (va_hd va_b13) va_s13 (va_op_xmm_xmm 13)
(va_op_xmm_xmm 13) rndkey in
let va_b14 = va_tl va_b13 in
let (va_s15, va_fc15) = va_lemma_VAESNI_enc (va_hd va_b14) va_s14 (va_op_xmm_xmm 14)
(va_op_xmm_xmm 14) rndkey in
let va_b15 = va_tl va_b14 in
Vale.AES.AES_s.eval_rounds_reveal ();
Vale.AES.AES_helpers.commute_sub_bytes_shift_rows_forall ();
let (va_sM, va_f15) = va_lemma_empty_total va_s15 va_b15 in
let va_f14 = va_lemma_merge_total va_b14 va_s14 va_fc15 va_s15 va_f15 va_sM in
let va_f13 = va_lemma_merge_total va_b13 va_s13 va_fc14 va_s14 va_f14 va_sM in
let va_f12 = va_lemma_merge_total va_b12 va_s12 va_fc13 va_s13 va_f13 va_sM in
let va_f11 = va_lemma_merge_total va_b11 va_s11 va_fc12 va_s12 va_f12 va_sM in
let va_f10 = va_lemma_merge_total va_b10 va_s10 va_fc11 va_s11 va_f11 va_sM in
let va_f9 = va_lemma_merge_total va_b9 va_s9 va_fc10 va_s10 va_f10 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc9 va_s9 va_f9 va_sM in
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_plain (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq quad32))
(keys_b:buffer128) (init:quad32_6) (rndkey:va_operand_xmm) (va_s0:va_state) (va_k:(va_state ->
unit -> Type0)) : Type0 =
(va_is_dst_xmm rndkey va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ (rndkey == 1 \/ rndkey == 2 \/
rndkey == 15) /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 1 < FStar.Seq.Base.length
#quad32 round_keys /\ (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm
12 va_s0, va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == rounds_opaque_6 init round_keys rnd) /\
(forall (va_x_rndkey:va_value_xmm) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32)
(va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm
12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9
(va_upd_operand_xmm rndkey va_x_rndkey va_s0))))))) in va_get_ok va_sM /\ (va_get_xmm 9 va_sM,
va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM, va_get_xmm
14 va_sM) == rounds_opaque_6 init round_keys (rnd + 1) ==> va_k va_sM (())))
val va_wpProof_Loop6x_plain : alg:algorithm -> rnd:nat -> key_words:(seq nat32) -> round_keys:(seq
quad32) -> keys_b:buffer128 -> init:quad32_6 -> rndkey:va_operand_xmm -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_plain alg rnd key_words round_keys keys_b init
rndkey va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_plain alg rnd rndkey)
([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10;
va_Mod_xmm 9; va_mod_xmm rndkey]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_plain alg rnd key_words round_keys keys_b init rndkey va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_plain (va_code_Loop6x_plain alg rnd rndkey) va_s0 alg rnd
key_words round_keys keys_b init rndkey in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM
(va_update_ok va_sM (va_update_operand_xmm rndkey va_sM va_s0))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_mod_xmm rndkey]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_plain (alg:algorithm) (rnd:nat) (key_words:(seq nat32)) (round_keys:(seq
quad32)) (keys_b:buffer128) (init:quad32_6) (rndkey:va_operand_xmm) : (va_quickCode unit
(va_code_Loop6x_plain alg rnd rndkey)) =
(va_QProc (va_code_Loop6x_plain alg rnd rndkey) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_mod_xmm rndkey])
(va_wp_Loop6x_plain alg rnd key_words round_keys keys_b init rndkey) (va_wpProof_Loop6x_plain
alg rnd key_words round_keys keys_b init rndkey))
//--
//-- Loop6x_preamble
val va_code_Loop6x_preamble : alg:algorithm -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_preamble alg =
(va_Block (va_CCons (va_code_Loop6x_ctr_update alg) (va_CCons (va_code_Store128_buffer
(va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 1) 128 Secret)
(va_CCons (va_code_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 15)) (va_CNil ())))))))
val va_codegen_success_Loop6x_preamble : alg:algorithm -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_preamble alg =
(va_pbool_and (va_codegen_success_Loop6x_ctr_update alg) (va_pbool_and
(va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_xmm_xmm 1) 128 Secret) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 12)
(va_op_xmm_xmm 12) (va_op_opr128_xmm 15)) (va_pbool_and (va_codegen_success_VPxor
(va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 15)) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 15))
(va_ttrue ()))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_preamble (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (iv_b:buffer128)
(scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128)
(hkeys_b:buffer128) (ctr_BE:quad32) : (va_quickCode unit (va_code_Loop6x_preamble alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_QBind va_range1
"***** PRECONDITION NOT MET AT line 477 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE) (fun
(va_s:va_state) _ -> let (va_arg43:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg42:Vale.Def.Types_s.quad32) = va_get_xmm 9 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 479 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg42 va_arg43) (let
(va_arg41:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let
(va_arg40:Vale.Def.Types_s.quad32) = va_get_xmm 10 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 480 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg40 va_arg41) (let
(va_arg39:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys in let
(va_arg38:Vale.Def.Types_s.quad32) = va_get_xmm 11 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 481 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg38 va_arg39) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 498 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_xmm_xmm 1) 128 Secret scratch_b 8) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 499 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg37:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg36:Vale.Def.Types_s.quad32) = va_get_xmm 12 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 499 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg36 va_arg37) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 500 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg35:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg34:Vale.Def.Types_s.quad32) = va_get_xmm 13 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 500 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg34 va_arg35) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 501 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg33:(FStar.Seq.Base.seq Vale.Def.Types_s.quad32)) = round_keys
in let (va_arg32:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 501 column 54 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.init_rounds_opaque va_arg32 va_arg33) (va_QEmpty
(()))))))))))))))
val va_lemma_Loop6x_preamble : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 ->
iv_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) ->
keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_preamble alg) va_s0 /\ va_get_ok va_s0 /\ (let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ Vale.X64.Decls.validDstAddrs128
(va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0)
Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 ==
FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx
va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9
va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in Vale.X64.Decls.modifies_buffer_specific128
scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 8 8 /\ (let init =
make_six_of #Vale.Def.Types_s.quad32 (fun (n:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor
(Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE n)) (va_get_xmm 15
va_sM)) in (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys 0 /\
Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64
rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_s0)))
/\ va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 14
va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10
va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2
va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64
rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM (va_update_mem va_sM
va_s0))))))))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_preamble va_b0 va_s0 alg h_LE iv_b scratch_b key_words round_keys keys_b
hkeys_b ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5;
va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx;
va_Mod_ok; va_Mod_mem] in
let va_qc = va_qcode_Loop6x_preamble va_mods alg h_LE iv_b scratch_b key_words round_keys keys_b
hkeys_b ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_preamble alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 402 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in label va_range1
"***** POSTCONDITION NOT MET AT line 459 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 8 8) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 464 column 9 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(let init = make_six_of #Vale.Def.Types_s.quad32 (fun (n:(va_int_range 0 5)) ->
Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite
ctr_BE n)) (va_get_xmm 15 va_sM)) in label va_range1
"***** POSTCONDITION NOT MET AT line 466 column 102 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys 0) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 469 column 90 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6)) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 472 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 473 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite
ctr_BE 6) `op_Modulus` 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 475 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_s0)))))
in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm
12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2;
va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok;
va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_preamble (alg:algorithm) (h_LE:quad32) (iv_b:buffer128) (scratch_b:buffer128)
(key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128)
(ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ Vale.X64.Decls.validDstAddrs128
(va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0) scratch_b 9 (va_get_mem_layout va_s0)
Secret /\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm 15 va_s0 ==
FStar.Seq.Base.index #quad32 round_keys 0 /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour
#Vale.Def.Types_s.nat32 0 0 0 16777216 /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 0) /\ va_get_reg64 rRbx
va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus` 256 /\ va_get_xmm 9
va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h) /\ (forall (va_x_mem:vale_heap) (va_x_rbx:nat64)
(va_x_r11:nat64) (va_x_xmm3:quad32) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32)
(va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32)
(va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32)
(va_x_heap3:vale_heap) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl
(va_upd_mem_heaplet 3 va_x_heap3 (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13
(va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9
va_x_xmm9 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1
va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_xmm 3 va_x_xmm3 (va_upd_reg64 rR11 va_x_r11
(va_upd_reg64 rRbx va_x_rbx (va_upd_mem va_x_mem va_s0)))))))))))))))) in va_get_ok va_sM /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in Vale.X64.Decls.modifies_buffer_specific128
scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) 8 8 /\ (let init =
make_six_of #Vale.Def.Types_s.quad32 (fun (n:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor
(Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE n)) (va_get_xmm 15
va_sM)) in (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys 0 /\
Vale.X64.Decls.buffer128_read scratch_b 8 (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64
rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_s0)))
==> va_k va_sM (())))
val va_wpProof_Loop6x_preamble : alg:algorithm -> h_LE:quad32 -> iv_b:buffer128 ->
scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 ->
hkeys_b:buffer128 -> ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_preamble alg h_LE iv_b scratch_b key_words
round_keys keys_b hkeys_b ctr_BE va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_preamble alg) ([va_Mod_flags;
va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm
10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0,
va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_preamble alg h_LE iv_b scratch_b key_words round_keys keys_b hkeys_b ctr_BE
va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_preamble (va_code_Loop6x_preamble alg) va_s0 alg h_LE iv_b
scratch_b key_words round_keys keys_b hkeys_b ctr_BE in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_mem_heaplet 3 va_sM (va_update_xmm 14
va_sM (va_update_xmm 13 va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10
va_sM (va_update_xmm 9 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2
va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64
rR11 va_sM (va_update_reg64 rRbx va_sM (va_update_ok va_sM (va_update_mem va_sM
va_s0)))))))))))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm
12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2;
va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_mem])
va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_preamble (alg:algorithm) (h_LE:quad32) (iv_b:buffer128) (scratch_b:buffer128)
(key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128)
(ctr_BE:quad32) : (va_quickCode unit (va_code_Loop6x_preamble alg)) =
(va_QProc (va_code_Loop6x_preamble alg) ([va_Mod_flags; va_Mod_mem_heaplet 3; va_Mod_xmm 14;
va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11;
va_Mod_reg64 rRbx; va_Mod_mem]) (va_wp_Loop6x_preamble alg h_LE iv_b scratch_b key_words
round_keys keys_b hkeys_b ctr_BE) (va_wpProof_Loop6x_preamble alg h_LE iv_b scratch_b key_words
round_keys keys_b hkeys_b ctr_BE))
//--
//-- Loop6x_reverse128
val va_code_Loop6x_reverse128 : in0_offset:nat -> stack_offset:nat -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_reverse128 in0_offset stack_offset =
(va_Block (va_CCons (va_code_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rR13) (va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16 + 8)
Secret true) (va_CCons (va_code_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rR12) (va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16) Secret
false) (va_CCons (va_code_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR13) (stack_offset `op_Multiply` 16)
Secret false) (va_CCons (va_code_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR12) (stack_offset `op_Multiply` 16 + 8)
Secret true) (va_CNil ()))))))
val va_codegen_success_Loop6x_reverse128 : in0_offset:nat -> stack_offset:nat -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_reverse128 in0_offset stack_offset =
(va_pbool_and (va_codegen_success_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rR13) (va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16 + 8)
Secret true) (va_pbool_and (va_codegen_success_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg_opr64_reg64 rR12) (va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16) Secret
false) (va_pbool_and (va_codegen_success_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR13) (stack_offset `op_Multiply` 16)
Secret false) (va_pbool_and (va_codegen_success_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR12) (stack_offset `op_Multiply` 16 + 8)
Secret true) (va_ttrue ())))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_reverse128 (va_mods:va_mods_t) (in0_offset:nat) (stack_offset:nat) (start:nat)
(in0_b:buffer128) (scratch_b:buffer128) : (va_quickCode unit (va_code_Loop6x_reverse128
in0_offset stack_offset)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 527 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rR13)
(va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16 + 8) Secret true in0_b (start +
in0_offset)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 528 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_LoadBe64_buffer128 (va_op_heaplet_mem_heaplet 6) (va_op_reg_opr64_reg64 rR12)
(va_op_reg_opr64_reg64 rR14) (in0_offset `op_Multiply` 16) Secret false in0_b (start +
in0_offset)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 529 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR13) (stack_offset `op_Multiply` 16) Secret false scratch_b
stack_offset) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 530 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR12) (stack_offset `op_Multiply` 16 + 8) Secret true scratch_b
stack_offset) (fun (va_s:va_state) _ -> let (va_arg10:Vale.Def.Types_s.quad32) =
Vale.X64.Decls.buffer128_read scratch_b stack_offset (va_get_mem_heaplet 3 va_s) in let
(va_arg9:Vale.Def.Types_s.quad32) = Vale.X64.Decls.buffer128_read scratch_b stack_offset
(va_get_mem_heaplet 3 va_old_s) in let (va_arg8:Vale.Def.Types_s.quad32) =
Vale.X64.Decls.buffer128_read in0_b (start + in0_offset) (va_get_mem_heaplet 6 va_old_s) in
va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 531 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.Arch.Types.lemma_reverse_bytes_quad32_64 va_arg8 va_arg9 va_arg10)
(va_QEmpty (()))))))))
val va_lemma_Loop6x_reverse128 : va_b0:va_code -> va_s0:va_state -> in0_offset:nat ->
stack_offset:nat -> start:nat -> in0_b:buffer128 -> scratch_b:buffer128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_reverse128 in0_offset stack_offset) va_s0 /\
va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128
(va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b start (in0_offset + 1)
(va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3
va_s0) (va_get_reg64 rRbp va_s0) scratch_b (stack_offset + 1) (va_get_mem_layout va_s0)
Secret)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) stack_offset stack_offset /\ Vale.X64.Decls.buffer128_read
scratch_b stack_offset (va_get_mem_heaplet 3 va_sM) == Vale.Def.Types_s.reverse_bytes_quad32
(Vale.X64.Decls.buffer128_read in0_b (start + in0_offset) (va_get_mem_heaplet 6 va_s0))) /\
va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR13 va_sM (va_update_reg64
rR12 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0)))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_reverse128 va_b0 va_s0 in0_offset stack_offset start in0_b scratch_b =
let (va_mods:va_mods_t) = [va_Mod_mem_heaplet 3; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_ok;
va_Mod_mem] in
let va_qc = va_qcode_Loop6x_reverse128 va_mods in0_offset stack_offset start in0_b scratch_b in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_reverse128 in0_offset
stack_offset) va_qc va_s0 (fun va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 504 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (label va_range1
"***** POSTCONDITION NOT MET AT line 523 column 94 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) stack_offset stack_offset) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 525 column 88 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b stack_offset (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (start + in0_offset)
(va_get_mem_heaplet 6 va_s0))))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_ok;
va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_reverse128 (in0_offset:nat) (stack_offset:nat) (start:nat) (in0_b:buffer128)
(scratch_b:buffer128) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (sse_enabled /\ movbe_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128
(va_get_mem_heaplet 6 va_s0) (va_get_reg64 rR14 va_s0) in0_b start (in0_offset + 1)
(va_get_mem_layout va_s0) Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3
va_s0) (va_get_reg64 rRbp va_s0) scratch_b (stack_offset + 1) (va_get_mem_layout va_s0) Secret)
/\ (forall (va_x_mem:vale_heap) (va_x_r12:nat64) (va_x_r13:nat64) (va_x_heap3:vale_heap) . let
va_sM = va_upd_mem_heaplet 3 va_x_heap3 (va_upd_reg64 rR13 va_x_r13 (va_upd_reg64 rR12 va_x_r12
(va_upd_mem va_x_mem va_s0))) in va_get_ok va_sM /\ (Vale.X64.Decls.modifies_buffer_specific128
scratch_b (va_get_mem_heaplet 3 va_s0) (va_get_mem_heaplet 3 va_sM) stack_offset stack_offset
/\ Vale.X64.Decls.buffer128_read scratch_b stack_offset (va_get_mem_heaplet 3 va_sM) ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.X64.Decls.buffer128_read in0_b (start + in0_offset)
(va_get_mem_heaplet 6 va_s0))) ==> va_k va_sM (())))
val va_wpProof_Loop6x_reverse128 : in0_offset:nat -> stack_offset:nat -> start:nat ->
in0_b:buffer128 -> scratch_b:buffer128 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_reverse128 in0_offset stack_offset start in0_b
scratch_b va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_reverse128 in0_offset
stack_offset) ([va_Mod_mem_heaplet 3; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_mem]) va_s0
va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_reverse128 in0_offset stack_offset start in0_b scratch_b va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_reverse128 (va_code_Loop6x_reverse128 in0_offset
stack_offset) va_s0 in0_offset stack_offset start in0_b scratch_b in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_reg64 rR13 va_sM
(va_update_reg64 rR12 va_sM (va_update_ok va_sM (va_update_mem va_sM va_s0))))));
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_mem])
va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_reverse128 (in0_offset:nat) (stack_offset:nat) (start:nat) (in0_b:buffer128)
(scratch_b:buffer128) : (va_quickCode unit (va_code_Loop6x_reverse128 in0_offset stack_offset)) =
(va_QProc (va_code_Loop6x_reverse128 in0_offset stack_offset) ([va_Mod_mem_heaplet 3;
va_Mod_reg64 rR13; va_Mod_reg64 rR12; va_Mod_mem]) (va_wp_Loop6x_reverse128 in0_offset
stack_offset start in0_b scratch_b) (va_wpProof_Loop6x_reverse128 in0_offset stack_offset start
in0_b scratch_b))
//--
//-- Loop6x_round9
val va_code_Loop6x_round9 : alg:algorithm -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_round9 alg =
(va_Block (va_CCons (va_code_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64
rRbp) (va_op_xmm_xmm 7) 16 Secret) (va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor
(va_op_xmm_xmm 2) (va_op_xmm_xmm 1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6)
(va_op_reg64_reg64 rRdi) 0 Secret)) (va_CCons (va_code_Mem128_lemma ()) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_CCons
(va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 1)
(va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret))
(va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm
1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret))
(va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 7) (va_op_xmm_xmm
1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret))
(va_CCons (va_code_Mem128_lemma ()) (va_CCons (va_code_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm
1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret))
(va_CNil ())))))))))))))))
val va_codegen_success_Loop6x_round9 : alg:algorithm -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_round9 alg =
(va_pbool_and (va_codegen_success_Store128_buffer (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp) (va_op_xmm_xmm 7) 16 Secret) (va_pbool_and
(va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 2)
(va_op_xmm_xmm 1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0
Secret)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_pbool_and
(va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 5)
(va_op_xmm_xmm 1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32
Secret)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_pbool_and
(va_codegen_success_Mem128_lemma ()) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 7)
(va_op_xmm_xmm 1) (va_opr_code_Mem128 (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64
Secret)) (va_pbool_and (va_codegen_success_Mem128_lemma ()) (va_pbool_and
(va_codegen_success_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (va_ttrue ()))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_round9 (va_mods:va_mods_t) (alg:algorithm) (count:nat) (in_b:buffer128)
(scratch_b:buffer128) (key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) :
(va_quickCode unit (va_code_Loop6x_round9 alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 567 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_xmm_xmm 7) 16 Secret scratch_b 1) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 568 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret in_b
(count `op_Multiply` 6 + 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 568 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 2) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 0 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 569 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret in_b
(count `op_Multiply` 6 + 1)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 569 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 16 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 570 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret in_b
(count `op_Multiply` 6 + 2)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 570 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 5) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 32 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 571 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret in_b
(count `op_Multiply` 6 + 3)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 571 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 48 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 572 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret in_b
(count `op_Multiply` 6 + 4)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 572 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 7) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 64 Secret)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 573 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Mem128_lemma (va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret in_b
(count `op_Multiply` 6 + 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 573 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 3) (va_op_xmm_xmm 1) (va_opr_code_Mem128
(va_op_heaplet_mem_heaplet 6) (va_op_reg64_reg64 rRdi) 80 Secret)) (va_QEmpty
(()))))))))))))))))
val va_lemma_Loop6x_round9 : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> count:nat ->
in_b:buffer128 -> scratch_b:buffer128 -> key_words:(seq nat32) -> round_keys:(seq quad32) ->
keys_b:buffer128
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_round9 alg) va_s0 /\ va_get_ok va_s0 /\
(sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6 va_s0)
(va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0) Secret /\
Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp va_s0)
scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys keys_b
(va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ va_get_xmm
1 va_s0 == Vale.X64.Decls.buffer128_read keys_b (Vale.AES.AES_common_s.nr alg)
(va_get_mem_heaplet 0 va_s0))))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 1 1 /\ (va_get_xmm 2 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5
va_sM, va_get_xmm 6 va_sM, va_get_xmm 7 va_sM, va_get_xmm 3 va_sM) == make_six_of #quad32 (fun
(i:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor (FStar.Seq.Base.index
#Vale.Def.Types_s.quad32 round_keys (Vale.AES.AES_common_s.nr alg))
(Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_sM)))
/\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 7
va_s0) /\ va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_flags va_sM
(va_update_xmm 7 va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 3 va_sM
(va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_ok va_sM
(va_update_mem va_sM va_s0)))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_round9 va_b0 va_s0 alg count in_b scratch_b key_words round_keys keys_b =
let (va_mods:va_mods_t) = [va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_ok; va_Mod_mem] in
let va_qc = va_qcode_Loop6x_round9 va_mods alg count in_b scratch_b key_words round_keys keys_b in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_round9 alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 535 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (label va_range1
"***** POSTCONDITION NOT MET AT line 561 column 72 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 1 1) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 563 column 102 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 2 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5 va_sM, va_get_xmm 6 va_sM, va_get_xmm 7
va_sM, va_get_xmm 3 va_sM) == make_six_of #quad32 (fun (i:(va_int_range 0 5)) ->
Vale.Def.Types_s.quad32_xor (FStar.Seq.Base.index #Vale.Def.Types_s.quad32 round_keys
(Vale.AES.AES_common_s.nr alg)) (Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i)
(va_get_mem_heaplet 6 va_sM)))) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 564 column 55 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 7
va_s0))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm
5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_ok; va_Mod_mem]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_round9 (alg:algorithm) (count:nat) (in_b:buffer128) (scratch_b:buffer128)
(key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (va_s0:va_state)
(va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (sse_enabled /\ Vale.X64.Decls.validSrcAddrsOffset128 (va_get_mem_heaplet 6
va_s0) (va_get_reg64 rRdi va_s0) in_b (count `op_Multiply` 6) 6 (va_get_mem_layout va_s0)
Secret /\ Vale.X64.Decls.validDstAddrs128 (va_get_mem_heaplet 3 va_s0) (va_get_reg64 rRbp
va_s0) scratch_b 8 (va_get_mem_layout va_s0) Secret /\ aes_reqs_offset alg key_words round_keys
keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\
va_get_xmm 1 va_s0 == Vale.X64.Decls.buffer128_read keys_b (Vale.AES.AES_common_s.nr alg)
(va_get_mem_heaplet 0 va_s0)) /\ (forall (va_x_mem:vale_heap) (va_x_xmm0:quad32)
(va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm3:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32)
(va_x_xmm7:quad32) (va_x_efl:Vale.X64.Flags.t) (va_x_heap3:vale_heap) . let va_sM =
va_upd_mem_heaplet 3 va_x_heap3 (va_upd_flags va_x_efl (va_upd_xmm 7 va_x_xmm7 (va_upd_xmm 6
va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 3 va_x_xmm3 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1
va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_mem va_x_mem va_s0))))))))) in va_get_ok va_sM /\
(Vale.X64.Decls.modifies_buffer_specific128 scratch_b (va_get_mem_heaplet 3 va_s0)
(va_get_mem_heaplet 3 va_sM) 1 1 /\ (va_get_xmm 2 va_sM, va_get_xmm 0 va_sM, va_get_xmm 5
va_sM, va_get_xmm 6 va_sM, va_get_xmm 7 va_sM, va_get_xmm 3 va_sM) == make_six_of #quad32 (fun
(i:(va_int_range 0 5)) -> Vale.Def.Types_s.quad32_xor (FStar.Seq.Base.index
#Vale.Def.Types_s.quad32 round_keys (Vale.AES.AES_common_s.nr alg))
(Vale.X64.Decls.buffer128_read in_b (count `op_Multiply` 6 + i) (va_get_mem_heaplet 6 va_sM)))
/\ Vale.X64.Decls.buffer128_read scratch_b 1 (va_get_mem_heaplet 3 va_sM) == va_get_xmm 7
va_s0) ==> va_k va_sM (())))
val va_wpProof_Loop6x_round9 : alg:algorithm -> count:nat -> in_b:buffer128 -> scratch_b:buffer128
-> key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_round9 alg count in_b scratch_b key_words
round_keys keys_b va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_round9 alg)
([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 3;
va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_mem]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_round9 alg count in_b scratch_b key_words round_keys keys_b va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_round9 (va_code_Loop6x_round9 alg) va_s0 alg count in_b
scratch_b key_words round_keys keys_b in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_mem_heaplet 3 va_sM (va_update_flags va_sM (va_update_xmm 7
va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 3 va_sM (va_update_xmm 2
va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM (va_update_ok va_sM (va_update_mem va_sM
va_s0))))))))))));
va_lemma_norm_mods ([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7; va_Mod_xmm 6; va_Mod_xmm
5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_mem]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_round9 (alg:algorithm) (count:nat) (in_b:buffer128) (scratch_b:buffer128)
(key_words:(seq nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) : (va_quickCode unit
(va_code_Loop6x_round9 alg)) =
(va_QProc (va_code_Loop6x_round9 alg) ([va_Mod_mem_heaplet 3; va_Mod_flags; va_Mod_xmm 7;
va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 3; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_mem]) (va_wp_Loop6x_round9 alg count in_b scratch_b key_words round_keys keys_b)
(va_wpProof_Loop6x_round9 alg count in_b scratch_b key_words round_keys keys_b))
//--
//-- load_one_msb
val va_code_load_one_msb : va_dummy:unit -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_load_one_msb () =
(va_Block (va_CCons (va_code_ZeroXmm (va_op_xmm_xmm 2)) (va_CCons (va_code_PinsrqImm
(va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
val va_codegen_success_load_one_msb : va_dummy:unit -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_load_one_msb () =
(va_pbool_and (va_codegen_success_ZeroXmm (va_op_xmm_xmm 2)) (va_pbool_and
(va_codegen_success_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64
rR11)) (va_ttrue ())))
[@ "opaque_to_smt" va_qattr]
let va_qcode_load_one_msb (va_mods:va_mods_t) : (va_quickCode unit (va_code_load_one_msb ())) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QBind va_range1
"***** PRECONDITION NOT MET AT line 583 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_ZeroXmm (va_op_xmm_xmm 2)) (fun (va_s:va_state) _ -> va_qAssert va_range1
"***** PRECONDITION NOT MET AT line 584 column 5 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 0 16777216) ==
72057594037927936) (va_QBind va_range1
"***** PRECONDITION NOT MET AT line 585 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_PinsrqImm (va_op_xmm_xmm 2) 72057594037927936 1 (va_op_reg_opr64_reg64 rR11)) (fun
(va_s:va_state) _ -> va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 586 column 24 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.Def.Types_s.insert_nat64_reveal ()) (va_QEmpty (())))))))
val va_lemma_load_one_msb : va_b0:va_code -> va_s0:va_state
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_load_one_msb ()) va_s0 /\ va_get_ok va_s0 /\
sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 /\
va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11 va_sM
(va_update_ok va_sM va_s0))))))
[@"opaque_to_smt"]
let va_lemma_load_one_msb va_b0 va_s0 =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok] in
let va_qc = va_qcode_load_one_msb va_mods in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_load_one_msb ()) va_qc va_s0 (fun va_s0
va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 576 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 581 column 46 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 2 va_sM == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216)) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_load_one_msb (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_r11:nat64) (va_x_xmm2:quad32)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 2 va_x_xmm2
(va_upd_reg64 rR11 va_x_r11 va_s0)) in va_get_ok va_sM /\ va_get_xmm 2 va_sM ==
Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216 ==> va_k va_sM (())))
val va_wpProof_load_one_msb : va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_load_one_msb va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_load_one_msb ()) ([va_Mod_flags;
va_Mod_xmm 2; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_load_one_msb va_s0 va_k =
let (va_sM, va_f0) = va_lemma_load_one_msb (va_code_load_one_msb ()) va_s0 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 2 va_sM (va_update_reg64 rR11
va_sM (va_update_ok va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_load_one_msb () : (va_quickCode unit (va_code_load_one_msb ())) =
(va_QProc (va_code_load_one_msb ()) ([va_Mod_flags; va_Mod_xmm 2; va_Mod_reg64 rR11])
va_wp_load_one_msb va_wpProof_load_one_msb)
//--
//-- Loop6x_final
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_final alg =
(va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 1)
(va_op_reg_opr64_reg64 rRbp) 128 Secret) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 9)
(va_op_xmm_xmm 9) (va_op_xmm_xmm 2)) (va_CCons (va_code_load_one_msb ()) (va_CCons
(va_code_VAESNI_enc_last (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_CCons
(va_code_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR13) (7 `op_Multiply` 16) Secret false) (va_CCons (va_code_AddLea64
(va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi) (va_const_opr64 96)) (va_CCons
(va_code_VAESNI_enc_last (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 5) (va_op_xmm_xmm 0) (va_op_xmm_xmm 2)) (va_CCons
(va_code_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR12) (7 `op_Multiply` 16 + 8) Secret true) (va_CCons (va_code_AddLea64
(va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15) (va_op_reg_opr64_reg64
rRcx) (0 - 128) Secret) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm
12) (va_op_xmm_xmm 6)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)
(va_op_xmm_xmm 2)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13)
(va_op_xmm_xmm 7)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 7) (va_op_xmm_xmm 6) (va_op_xmm_xmm
2)) (va_CCons (va_code_VAESNI_enc_last (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 3))
(va_CCons (va_code_VPaddd (va_op_xmm_xmm 3) (va_op_xmm_xmm 7) (va_op_xmm_xmm 2)) (va_CNil
()))))))))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_final alg =
(va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 3) (va_op_xmm_xmm 1)
(va_op_reg_opr64_reg64 rRbp) 128 Secret) (va_pbool_and (va_codegen_success_VAESNI_enc_last
(va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 2)) (va_pbool_and
(va_codegen_success_load_one_msb ()) (va_pbool_and (va_codegen_success_VAESNI_enc_last
(va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_pbool_and
(va_codegen_success_VPaddd (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)) (va_pbool_and
(va_codegen_success_Store64_buffer128 (va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64
rRbp) (va_op_reg_opr64_reg64 rR13) (7 `op_Multiply` 16) Secret false) (va_pbool_and
(va_codegen_success_AddLea64 (va_op_dst_opr64_reg64 rRdi) (va_op_opr64_reg64 rRdi)
(va_const_opr64 96)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm
5) (va_op_xmm_xmm 0) (va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_Store64_buffer128
(va_op_heaplet_mem_heaplet 3) (va_op_reg_opr64_reg64 rRbp) (va_op_reg_opr64_reg64 rR12) (7
`op_Multiply` 16 + 8) Secret true) (va_pbool_and (va_codegen_success_AddLea64
(va_op_dst_opr64_reg64 rRsi) (va_op_opr64_reg64 rRsi) (va_const_opr64 96)) (va_pbool_and
(va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 15)
(va_op_reg_opr64_reg64 rRcx) (0 - 128) Secret) (va_pbool_and
(va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 6))
(va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 6) (va_op_xmm_xmm 5) (va_op_xmm_xmm 2))
(va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 13) (va_op_xmm_xmm 13)
(va_op_xmm_xmm 7)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 7) (va_op_xmm_xmm 6)
(va_op_xmm_xmm 2)) (va_pbool_and (va_codegen_success_VAESNI_enc_last (va_op_xmm_xmm 14)
(va_op_xmm_xmm 14) (va_op_xmm_xmm 3)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm
3) (va_op_xmm_xmm 7) (va_op_xmm_xmm 2)) (va_ttrue ()))))))))))))))))))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.InsAes.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Transformers.Transform.fsti.checked",
"Vale.Math.Poly2_s.fsti.checked",
"Vale.Math.Poly2.Bits_s.fsti.checked",
"Vale.Math.Poly2.Bits.fsti.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Def.Prop_s.fst.checked",
"Vale.Def.Opaque_s.fsti.checked",
"Vale.Arch.TypesNative.fsti.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"Vale.AES.X64.PolyOps.fsti.checked",
"Vale.AES.X64.AESopt2.fsti.checked",
"Vale.AES.X64.AESGCM_expected_code.fsti.checked",
"Vale.AES.GHash.fsti.checked",
"Vale.AES.GF128_s.fsti.checked",
"Vale.AES.GF128.fsti.checked",
"Vale.AES.GCTR_s.fst.checked",
"Vale.AES.GCTR.fsti.checked",
"Vale.AES.GCM_helpers.fsti.checked",
"Vale.AES.AES_s.fst.checked",
"Vale.AES.AES_helpers.fsti.checked",
"Vale.AES.AES_common_s.fst.checked",
"prims.fst.checked",
"FStar.Seq.Base.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked"
],
"interface_file": true,
"source_file": "Vale.AES.X64.AESopt.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Transformers.Transform",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESGCM_expected_code",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESopt2",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.PolyOps",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GHash",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Math.Poly2_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.TypesNative",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCM_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsAes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"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.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Seq",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_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": "FStar.Mul",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Transformers.Transform",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESGCM_expected_code",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESopt2",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.PolyOps",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GHash",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Math.Poly2_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.TypesNative",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCM_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsAes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"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.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Seq",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_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.AES.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.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": 30,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
va_mods: Vale.X64.QuickCode.va_mods_t ->
alg: Vale.AES.AES_common_s.algorithm ->
iv_b: Vale.X64.Memory.buffer128 ->
scratch_b: Vale.X64.Memory.buffer128 ->
key_words: FStar.Seq.Base.seq Vale.X64.Memory.nat32 ->
round_keys: FStar.Seq.Base.seq Vale.X64.Decls.quad32 ->
keys_b: Vale.X64.Memory.buffer128 ->
ctr_orig: Vale.X64.Decls.quad32 ->
init: Vale.AES.X64.AESopt.quad32_6 ->
ctrs: Vale.AES.X64.AESopt.quad32_6 ->
plain: Vale.AES.X64.AESopt.quad32_6 ->
inb: Vale.X64.Decls.quad32
-> Vale.X64.QuickCode.va_quickCode Prims.unit (Vale.AES.X64.AESopt.va_code_Loop6x_final alg) | Prims.Tot | [
"total"
] | [] | [
"Vale.X64.QuickCode.va_mods_t",
"Vale.AES.AES_common_s.algorithm",
"Vale.X64.Memory.buffer128",
"FStar.Seq.Base.seq",
"Vale.X64.Memory.nat32",
"Vale.X64.Decls.quad32",
"Vale.AES.X64.AESopt.quad32_6",
"Vale.X64.QuickCodes.qblock",
"Prims.unit",
"Prims.Cons",
"Vale.X64.Decls.va_code",
"Vale.X64.InsVector.va_code_Load128_buffer",
"Vale.X64.Decls.va_op_heaplet_mem_heaplet",
"Vale.X64.Decls.va_op_xmm_xmm",
"Vale.X64.Decls.va_op_reg_opr64_reg64",
"Vale.X64.Machine_s.rRbp",
"Vale.Arch.HeapTypes_s.Secret",
"Vale.X64.InsAes.va_code_VAESNI_enc_last",
"Vale.AES.X64.AESopt.va_code_load_one_msb",
"Vale.X64.InsVector.va_code_VPaddd",
"Vale.X64.InsVector.va_code_Store64_buffer128",
"Vale.X64.Machine_s.rR13",
"Prims.op_Multiply",
"Vale.X64.InsBasic.va_code_AddLea64",
"Vale.X64.Decls.va_op_dst_opr64_reg64",
"Vale.X64.Machine_s.rRdi",
"Vale.X64.Decls.va_op_opr64_reg64",
"Vale.X64.Decls.va_const_opr64",
"Vale.X64.Machine_s.rR12",
"Prims.op_Addition",
"Vale.X64.Machine_s.rRsi",
"Vale.X64.Machine_s.rRcx",
"Prims.op_Subtraction",
"Prims.Nil",
"Vale.X64.Machine_s.precode",
"Vale.X64.Decls.ins",
"Vale.X64.Decls.ocmp",
"Vale.X64.Decls.va_state",
"Vale.X64.QuickCodes.va_qPURE",
"Prims.pure_post",
"Prims.l_and",
"Prims.l_True",
"Prims.l_Forall",
"Prims.l_imp",
"Vale.Def.Types_s.quad32",
"Prims.b2t",
"Prims.op_Equality",
"Vale.Def.Types_s.quad32_xor",
"Vale.X64.QuickCodes.va_range1",
"Vale.Arch.TypesNative.lemma_quad32_xor_commutes_forall",
"Vale.X64.QuickCodes.va_QSeq",
"Vale.X64.InsVector.va_quick_Load128_buffer",
"Vale.X64.InsAes.va_quick_VAESNI_enc_last",
"Vale.AES.X64.AESopt.va_quick_load_one_msb",
"Vale.X64.InsVector.va_quick_VPaddd",
"Vale.X64.InsVector.va_quick_Store64_buffer128",
"Vale.X64.InsBasic.va_quick_AddLea64",
"Vale.X64.QuickCodes.va_QBind",
"Prims.eq2",
"Prims.int",
"FStar.Seq.Base.length",
"Prims.op_GreaterThan",
"FStar.Seq.Base.index",
"Vale.AES.AES_s.eval_rounds",
"Vale.AES.AES_common_s.sub_bytes",
"Vale.AES.AES_s.shift_rows_LE",
"Prims.nat",
"Prims.op_LessThan",
"Vale.AES.AES_s.eval_cipher",
"Vale.AES.AES_helpers.finish_cipher_opt",
"Vale.X64.QuickCodes.va_QLemma",
"Vale.AES.AES_s.is_aes_key_LE",
"Prims.squash",
"Vale.AES.AES_s.aes_encrypt_LE",
"FStar.Pervasives.Native.__proj__Mktuple6__item___1",
"Vale.AES.AES_s.key_to_round_keys_LE",
"Vale.AES.X64.AESopt.finish_aes_encrypt_le",
"FStar.Pervasives.Native.__proj__Mktuple6__item___2",
"FStar.Pervasives.Native.__proj__Mktuple6__item___3",
"FStar.Pervasives.Native.__proj__Mktuple6__item___4",
"FStar.Pervasives.Native.__proj__Mktuple6__item___5",
"FStar.Pervasives.Native.__proj__Mktuple6__item___6",
"Vale.Def.Types_s.insert_nat64",
"Vale.Def.Types_s.reverse_bytes_nat64",
"Vale.Arch.Types.hi64",
"Vale.Arch.Types.lo64",
"Vale.Def.Types_s.reverse_bytes_quad32",
"Vale.Arch.Types.lemma_reverse_bytes_quad32_64",
"Vale.Arch.Types.add_wrap_quad32",
"Vale.Def.Words_s.Mkfour",
"Vale.Def.Words_s.nat32",
"Prims.op_Modulus",
"Vale.Def.Words_s.__proj__Mkfour__item__lo0",
"Vale.AES.GCTR_s.inc32",
"Vale.AES.AES_helpers.lemma_incr_msb",
"Vale.X64.QuickCodes.va_QEmpty",
"Vale.X64.Decls.va_get_xmm",
"Vale.X64.Decls.buffer128_read",
"Vale.X64.Decls.va_get_mem_heaplet",
"Vale.X64.QuickCodes.quickCodes",
"Vale.X64.State.vale_state",
"Vale.X64.QuickCode.va_quickCode",
"Vale.AES.X64.AESopt.va_code_Loop6x_final"
] | [] | false | false | false | false | false | let va_qcode_Loop6x_final
(va_mods: va_mods_t)
(alg: algorithm)
(iv_b scratch_b: buffer128)
(key_words: (seq nat32))
(round_keys: (seq quad32))
(keys_b: buffer128)
(ctr_orig: quad32)
(init ctrs plain: quad32_6)
(inb: quad32)
: (va_quickCode unit (va_code_Loop6x_final alg)) =
| (qblock va_mods
(fun (va_s: va_state) ->
let va_old_s:va_state = va_s in
va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 667 column 37 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_: unit) -> Vale.Arch.TypesNative.lemma_quad32_xor_commutes_forall ())
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 669 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 3)
(va_op_xmm_xmm 1)
(va_op_reg_opr64_reg64 rRbp)
128
Secret
scratch_b
8)
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 671 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) (va_op_xmm_xmm 2))
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 672 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_load_one_msb ())
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 673 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 10)
(va_op_xmm_xmm 10)
(va_op_xmm_xmm 0))
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 674 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 0) (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)
)
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 675 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store64_buffer128 (va_op_heaplet_mem_heaplet 3)
(va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR13)
(7 `op_Multiply` 16)
Secret
false
scratch_b
7)
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 676 column 13 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_AddLea64 (va_op_dst_opr64_reg64 rRdi)
(va_op_opr64_reg64 rRdi)
(va_const_opr64 96))
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 677 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11)
(va_op_xmm_xmm 5))
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 678 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 5)
(va_op_xmm_xmm 0)
(va_op_xmm_xmm 2))
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 679 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Store64_buffer128 (va_op_heaplet_mem_heaplet
3)
(va_op_reg_opr64_reg64 rRbp)
(va_op_reg_opr64_reg64 rR12)
(7 `op_Multiply` 16 + 8)
Secret
true
scratch_b
7)
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 680 column 13 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_AddLea64 (va_op_dst_opr64_reg64 rRsi
)
(va_op_opr64_reg64 rRsi)
(va_const_opr64 96))
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 681 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet
0)
(va_op_xmm_xmm 15)
(va_op_reg_opr64_reg64 rRcx)
(0 - 128)
Secret
keys_b
0)
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 683 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm
12)
(va_op_xmm_xmm 12)
(va_op_xmm_xmm 6))
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 684 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 6)
(va_op_xmm_xmm 5)
(va_op_xmm_xmm 2))
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 685 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last (va_op_xmm_xmm
13)
(va_op_xmm_xmm 13)
(va_op_xmm_xmm 7))
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 686 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm
7)
(va_op_xmm_xmm 6)
(va_op_xmm_xmm 2))
(va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 687 column 20 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VAESNI_enc_last
(va_op_xmm_xmm 14)
(va_op_xmm_xmm 14)
(va_op_xmm_xmm 3))
(va_QBind va_range1
"***** PRECONDITION NOT MET AT line 688 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm
3)
(va_op_xmm_xmm
7)
(va_op_xmm_xmm
2))
(fun
(va_s:
va_state)
_
->
let va_arg117:(
FStar.Seq.Base.seq
Vale.Def.Types_s.quad32
) =
round_keys
in
let va_arg116:Vale.Def.Types_s.quad32
=
va_get_xmm 9
va_s
in
let va_arg115:Vale.Def.Types_s.quad32
=
va_get_xmm 9
va_old_s
in
let va_arg114:Vale.Def.Types_s.quad32
=
__proj__Mktuple6__item___1
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
init
in
let va_arg113:Vale.Def.Types_s.quad32
=
__proj__Mktuple6__item___1
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
plain
in
let va_arg112:Vale.Def.Types_s.quad32
=
__proj__Mktuple6__item___1
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
ctrs
in
let va_arg111:Vale.AES.AES_common_s.algorithm
=
alg
in
va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 690 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun
(_:
unit)
->
Vale.AES.AES_helpers.finish_cipher_opt
va_arg111
va_arg112
va_arg113
va_arg114
va_arg115
va_arg116
va_arg117
)
(let
va_arg110:(
FStar.Seq.Base.seq
Vale.Def.Types_s.quad32
) =
round_keys
in
let
va_arg109:Vale.Def.Types_s.quad32
=
va_get_xmm
10
va_s
in
let
va_arg108:Vale.Def.Types_s.quad32
=
va_get_xmm
10
va_old_s
in
let
va_arg107:Vale.Def.Types_s.quad32
=
__proj__Mktuple6__item___2
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
init
in
let
va_arg106:Vale.Def.Types_s.quad32
=
__proj__Mktuple6__item___2
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
plain
in
let
va_arg105:Vale.Def.Types_s.quad32
=
__proj__Mktuple6__item___2
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
ctrs
in
let
va_arg104:Vale.AES.AES_common_s.algorithm
=
alg
in
va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 691 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun
(_:
unit
)
->
Vale.AES.AES_helpers.finish_cipher_opt
va_arg104
va_arg105
va_arg106
va_arg107
va_arg108
va_arg109
va_arg110
)
(let
va_arg103:(
FStar.Seq.Base.seq
Vale.Def.Types_s.quad32
) =
round_keys
in
let
va_arg102:Vale.Def.Types_s.quad32
=
va_get_xmm
11
va_s
in
let
va_arg101:Vale.Def.Types_s.quad32
=
va_get_xmm
11
va_old_s
in
let
va_arg100:Vale.Def.Types_s.quad32
=
__proj__Mktuple6__item___3
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
init
in
let
va_arg99:Vale.Def.Types_s.quad32
=
__proj__Mktuple6__item___3
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
plain
in
let
va_arg98:Vale.Def.Types_s.quad32
=
__proj__Mktuple6__item___3
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
ctrs
in
let
va_arg97:Vale.AES.AES_common_s.algorithm
=
alg
in
va_qPURE
va_range1
"***** PRECONDITION NOT MET AT line 692 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun
(
_:
unit
)
->
Vale.AES.AES_helpers.finish_cipher_opt
va_arg97
va_arg98
va_arg99
va_arg100
va_arg101
va_arg102
va_arg103
)
(let
va_arg96:(
FStar.Seq.Base.seq
Vale.Def.Types_s.quad32
)
=
round_keys
in
let
va_arg95:Vale.Def.Types_s.quad32
=
va_get_xmm
12
va_s
in
let
va_arg94:Vale.Def.Types_s.quad32
=
va_get_xmm
12
va_old_s
in
let
va_arg93:Vale.Def.Types_s.quad32
=
__proj__Mktuple6__item___4
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
init
in
let
va_arg92:Vale.Def.Types_s.quad32
=
__proj__Mktuple6__item___4
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
plain
in
let
va_arg91:Vale.Def.Types_s.quad32
=
__proj__Mktuple6__item___4
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
ctrs
in
let
va_arg90:Vale.AES.AES_common_s.algorithm
=
alg
in
va_qPURE
va_range1
"***** PRECONDITION NOT MET AT line 693 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(
fun
(
_:
unit
)
->
Vale.AES.AES_helpers.finish_cipher_opt
va_arg90
va_arg91
va_arg92
va_arg93
va_arg94
va_arg95
va_arg96
)
(
let
va_arg89:(
FStar.Seq.Base.seq
Vale.Def.Types_s.quad32
)
=
round_keys
in
let
va_arg88:Vale.Def.Types_s.quad32
=
va_get_xmm
13
va_s
in
let
va_arg87:Vale.Def.Types_s.quad32
=
va_get_xmm
13
va_old_s
in
let
va_arg86:Vale.Def.Types_s.quad32
=
__proj__Mktuple6__item___5
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
init
in
let
va_arg85:Vale.Def.Types_s.quad32
=
__proj__Mktuple6__item___5
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
plain
in
let
va_arg84:Vale.Def.Types_s.quad32
=
__proj__Mktuple6__item___5
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
ctrs
in
let
va_arg83:Vale.AES.AES_common_s.algorithm
=
alg
in
va_qPURE
va_range1
"***** PRECONDITION NOT MET AT line 694 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(
fun
(
_:
unit
)
->
Vale.AES.AES_helpers.finish_cipher_opt
va_arg83
va_arg84
va_arg85
va_arg86
va_arg87
va_arg88
va_arg89
)
(
let
va_arg82:(
FStar.Seq.Base.seq
Vale.Def.Types_s.quad32
)
=
round_keys
in
let
va_arg81:Vale.Def.Types_s.quad32
=
va_get_xmm
14
va_s
in
let
va_arg80:Vale.Def.Types_s.quad32
=
va_get_xmm
14
va_old_s
in
let
va_arg79:Vale.Def.Types_s.quad32
=
__proj__Mktuple6__item___6
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
init
in
let
va_arg78:Vale.Def.Types_s.quad32
=
__proj__Mktuple6__item___6
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
plain
in
let
va_arg77:Vale.Def.Types_s.quad32
=
__proj__Mktuple6__item___6
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
ctrs
in
let
va_arg76:Vale.AES.AES_common_s.algorithm
=
alg
in
va_qPURE
va_range1
"***** PRECONDITION NOT MET AT line 695 column 22 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(
fun
(
_:
unit
)
->
Vale.AES.AES_helpers.finish_cipher_opt
va_arg76
va_arg77
va_arg78
va_arg79
va_arg80
va_arg81
va_arg82
)
(
va_QLemma
va_range1
"***** PRECONDITION NOT MET AT line 696 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(
(
fun
(
alg:
algorithm
)
(
input_LE:
quad32
)
(
key:
(
seq
nat32
)
)
->
Vale.AES.AES_s.is_aes_key_LE
alg
key
)
alg
(
__proj__Mktuple6__item___1
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
ctrs
)
key_words
)
(
fun
_
->
(
fun
(
alg:
algorithm
)
(
input_LE:
quad32
)
(
key:
(
seq
nat32
)
)
->
Vale.AES.AES_s.aes_encrypt_LE
alg
key
input_LE
==
Vale.AES.AES_s.eval_cipher
alg
input_LE
(
Vale.AES.AES_s.key_to_round_keys_LE
alg
key
)
)
alg
(
__proj__Mktuple6__item___1
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
ctrs
)
key_words
)
(
fun
(
_:
unit
)
->
finish_aes_encrypt_le
alg
(
__proj__Mktuple6__item___1
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
ctrs
)
key_words
)
(
va_QLemma
va_range1
"***** PRECONDITION NOT MET AT line 697 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(
(
fun
(
alg:
algorithm
)
(
input_LE:
quad32
)
(
key:
(
seq
nat32
)
)
->
Vale.AES.AES_s.is_aes_key_LE
alg
key
)
alg
(
__proj__Mktuple6__item___2
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
ctrs
)
key_words
)
(
fun
_
->
(
fun
(
alg:
algorithm
)
(
input_LE:
quad32
)
(
key:
(
seq
nat32
)
)
->
Vale.AES.AES_s.aes_encrypt_LE
alg
key
input_LE
==
Vale.AES.AES_s.eval_cipher
alg
input_LE
(
Vale.AES.AES_s.key_to_round_keys_LE
alg
key
)
)
alg
(
__proj__Mktuple6__item___2
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
ctrs
)
key_words
)
(
fun
(
_:
unit
)
->
finish_aes_encrypt_le
alg
(
__proj__Mktuple6__item___2
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
ctrs
)
key_words
)
(
va_QLemma
va_range1
"***** PRECONDITION NOT MET AT line 698 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(
(
fun
(
alg:
algorithm
)
(
input_LE:
quad32
)
(
key:
(
seq
nat32
)
)
->
Vale.AES.AES_s.is_aes_key_LE
alg
key
)
alg
(
__proj__Mktuple6__item___3
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
ctrs
)
key_words
)
(
fun
_
->
(
fun
(
alg:
algorithm
)
(
input_LE:
quad32
)
(
key:
(
seq
nat32
)
)
->
Vale.AES.AES_s.aes_encrypt_LE
alg
key
input_LE
==
Vale.AES.AES_s.eval_cipher
alg
input_LE
(
Vale.AES.AES_s.key_to_round_keys_LE
alg
key
)
)
alg
(
__proj__Mktuple6__item___3
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
ctrs
)
key_words
)
(
fun
(
_:
unit
)
->
finish_aes_encrypt_le
alg
(
__proj__Mktuple6__item___3
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
ctrs
)
key_words
)
(
va_QLemma
va_range1
"***** PRECONDITION NOT MET AT line 699 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(
(
fun
(
alg:
algorithm
)
(
input_LE:
quad32
)
(
key:
(
seq
nat32
)
)
->
Vale.AES.AES_s.is_aes_key_LE
alg
key
)
alg
(
__proj__Mktuple6__item___4
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
ctrs
)
key_words
)
(
fun
_
->
(
fun
(
alg:
algorithm
)
(
input_LE:
quad32
)
(
key:
(
seq
nat32
)
)
->
Vale.AES.AES_s.aes_encrypt_LE
alg
key
input_LE
==
Vale.AES.AES_s.eval_cipher
alg
input_LE
(
Vale.AES.AES_s.key_to_round_keys_LE
alg
key
)
)
alg
(
__proj__Mktuple6__item___4
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
ctrs
)
key_words
)
(
fun
(
_:
unit
)
->
finish_aes_encrypt_le
alg
(
__proj__Mktuple6__item___4
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
ctrs
)
key_words
)
(
va_QLemma
va_range1
"***** PRECONDITION NOT MET AT line 700 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(
(
fun
(
alg:
algorithm
)
(
input_LE:
quad32
)
(
key:
(
seq
nat32
)
)
->
Vale.AES.AES_s.is_aes_key_LE
alg
key
)
alg
(
__proj__Mktuple6__item___5
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
ctrs
)
key_words
)
(
fun
_
->
(
fun
(
alg:
algorithm
)
(
input_LE:
quad32
)
(
key:
(
seq
nat32
)
)
->
Vale.AES.AES_s.aes_encrypt_LE
alg
key
input_LE
==
Vale.AES.AES_s.eval_cipher
alg
input_LE
(
Vale.AES.AES_s.key_to_round_keys_LE
alg
key
)
)
alg
(
__proj__Mktuple6__item___5
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
ctrs
)
key_words
)
(
fun
(
_:
unit
)
->
finish_aes_encrypt_le
alg
(
__proj__Mktuple6__item___5
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
ctrs
)
key_words
)
(
va_QLemma
va_range1
"***** PRECONDITION NOT MET AT line 701 column 26 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(
(
fun
(
alg:
algorithm
)
(
input_LE:
quad32
)
(
key:
(
seq
nat32
)
)
->
Vale.AES.AES_s.is_aes_key_LE
alg
key
)
alg
(
__proj__Mktuple6__item___6
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
ctrs
)
key_words
)
(
fun
_
->
(
fun
(
alg:
algorithm
)
(
input_LE:
quad32
)
(
key:
(
seq
nat32
)
)
->
Vale.AES.AES_s.aes_encrypt_LE
alg
key
input_LE
==
Vale.AES.AES_s.eval_cipher
alg
input_LE
(
Vale.AES.AES_s.key_to_round_keys_LE
alg
key
)
)
alg
(
__proj__Mktuple6__item___6
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
ctrs
)
key_words
)
(
fun
(
_:
unit
)
->
finish_aes_encrypt_le
alg
(
__proj__Mktuple6__item___6
#quad32
#quad32
#quad32
#quad32
#quad32
#quad32
ctrs
)
key_words
)
(
let
va_arg75:Vale.Def.Types_s.quad32
=
Vale.X64.Decls.buffer128_read
scratch_b
7
(
va_get_mem_heaplet
3
va_s
)
in
let
va_arg74:Vale.Def.Types_s.quad32
=
Vale.X64.Decls.buffer128_read
scratch_b
7
(
va_get_mem_heaplet
3
va_old_s
)
in
let
va_arg73:Vale.Def.Types_s.quad32
=
inb
in
va_qPURE
va_range1
"***** PRECONDITION NOT MET AT line 703 column 34 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(
fun
(
_:
unit
)
->
Vale.Arch.Types.lemma_reverse_bytes_quad32_64
va_arg73
va_arg74
va_arg75
)
(
let
va_arg72:Vale.Def.Types_s.quad32
=
va_get_xmm
0
va_s
in
let
va_arg71:Vale.Def.Types_s.quad32
=
va_get_xmm
1
va_s
in
let
va_arg70:Vale.Def.Types_s.quad32
=
ctr_orig
in
va_qPURE
va_range1
"***** PRECONDITION NOT MET AT line 705 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(
fun
(
_:
unit
)
->
Vale.AES.AES_helpers.lemma_incr_msb
va_arg70
va_arg71
va_arg72
1
)
(
let
va_arg69:Vale.Def.Types_s.quad32
=
va_get_xmm
5
va_s
in
let
va_arg68:Vale.Def.Types_s.quad32
=
va_get_xmm
1
va_s
in
let
va_arg67:Vale.Def.Types_s.quad32
=
ctr_orig
in
va_qPURE
va_range1
"***** PRECONDITION NOT MET AT line 706 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(
fun
(
_:
unit
)
->
Vale.AES.AES_helpers.lemma_incr_msb
va_arg67
va_arg68
va_arg69
2
)
(
let
va_arg66:Vale.Def.Types_s.quad32
=
va_get_xmm
6
va_s
in
let
va_arg65:Vale.Def.Types_s.quad32
=
va_get_xmm
1
va_s
in
let
va_arg64:Vale.Def.Types_s.quad32
=
ctr_orig
in
va_qPURE
va_range1
"***** PRECONDITION NOT MET AT line 707 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(
fun
(
_:
unit
)
->
Vale.AES.AES_helpers.lemma_incr_msb
va_arg64
va_arg65
va_arg66
3
)
(
let
va_arg63:Vale.Def.Types_s.quad32
=
va_get_xmm
7
va_s
in
let
va_arg62:Vale.Def.Types_s.quad32
=
va_get_xmm
1
va_s
in
let
va_arg61:Vale.Def.Types_s.quad32
=
ctr_orig
in
va_qPURE
va_range1
"***** PRECONDITION NOT MET AT line 708 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(
fun
(
_:
unit
)
->
Vale.AES.AES_helpers.lemma_incr_msb
va_arg61
va_arg62
va_arg63
4
)
(
let
va_arg60:Vale.Def.Types_s.quad32
=
va_get_xmm
3
va_s
in
let
va_arg59:Vale.Def.Types_s.quad32
=
va_get_xmm
1
va_s
in
let
va_arg58:Vale.Def.Types_s.quad32
=
ctr_orig
in
va_qPURE
va_range1
"***** PRECONDITION NOT MET AT line 709 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(
fun
(
_:
unit
)
->
Vale.AES.AES_helpers.lemma_incr_msb
va_arg58
va_arg59
va_arg60
5
)
(
va_QEmpty
(
()
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
)
))
))))))))))))
)))))))))) | false |
Vale.AES.X64.AESopt.fst | Vale.AES.X64.AESopt.va_lemma_Loop6x_plain | val va_lemma_Loop6x_plain : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> rnd:nat ->
key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init:quad32_6 ->
rndkey:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_plain alg rnd rndkey) va_s0 /\ va_is_dst_xmm
rndkey va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ (rndkey == 1 \/ rndkey == 2 \/ rndkey == 15)
/\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 1 < FStar.Seq.Base.length
#quad32 round_keys /\ (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm
12 va_s0, va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == rounds_opaque_6 init round_keys rnd)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys (rnd + 1) /\ va_state_eq
va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12
va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok
va_sM (va_update_operand_xmm rndkey va_sM va_s0))))))))))) | val va_lemma_Loop6x_plain : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> rnd:nat ->
key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init:quad32_6 ->
rndkey:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_plain alg rnd rndkey) va_s0 /\ va_is_dst_xmm
rndkey va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ (rndkey == 1 \/ rndkey == 2 \/ rndkey == 15)
/\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 1 < FStar.Seq.Base.length
#quad32 round_keys /\ (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm
12 va_s0, va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == rounds_opaque_6 init round_keys rnd)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys (rnd + 1) /\ va_state_eq
va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12
va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok
va_sM (va_update_operand_xmm rndkey va_sM va_s0))))))))))) | let va_lemma_Loop6x_plain va_b0 va_s0 alg rnd key_words round_keys keys_b init rndkey =
va_reveal_opaque (`%va_code_Loop6x_plain) (va_code_Loop6x_plain alg rnd rndkey);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s9, va_fc9) = va_lemma_Load128_buffer (va_hd va_b1) va_s0 (va_op_heaplet_mem_heaplet 0)
rndkey (va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 1) - 128) Secret keys_b (rnd + 1)
in
let va_b9 = va_tl va_b1 in
let (va_s10, va_fc10) = va_lemma_VAESNI_enc (va_hd va_b9) va_s9 (va_op_xmm_xmm 9) (va_op_xmm_xmm
9) rndkey in
let va_b10 = va_tl va_b9 in
let (va_s11, va_fc11) = va_lemma_VAESNI_enc (va_hd va_b10) va_s10 (va_op_xmm_xmm 10)
(va_op_xmm_xmm 10) rndkey in
let va_b11 = va_tl va_b10 in
let (va_s12, va_fc12) = va_lemma_VAESNI_enc (va_hd va_b11) va_s11 (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) rndkey in
let va_b12 = va_tl va_b11 in
let (va_s13, va_fc13) = va_lemma_VAESNI_enc (va_hd va_b12) va_s12 (va_op_xmm_xmm 12)
(va_op_xmm_xmm 12) rndkey in
let va_b13 = va_tl va_b12 in
let (va_s14, va_fc14) = va_lemma_VAESNI_enc (va_hd va_b13) va_s13 (va_op_xmm_xmm 13)
(va_op_xmm_xmm 13) rndkey in
let va_b14 = va_tl va_b13 in
let (va_s15, va_fc15) = va_lemma_VAESNI_enc (va_hd va_b14) va_s14 (va_op_xmm_xmm 14)
(va_op_xmm_xmm 14) rndkey in
let va_b15 = va_tl va_b14 in
Vale.AES.AES_s.eval_rounds_reveal ();
Vale.AES.AES_helpers.commute_sub_bytes_shift_rows_forall ();
let (va_sM, va_f15) = va_lemma_empty_total va_s15 va_b15 in
let va_f14 = va_lemma_merge_total va_b14 va_s14 va_fc15 va_s15 va_f15 va_sM in
let va_f13 = va_lemma_merge_total va_b13 va_s13 va_fc14 va_s14 va_f14 va_sM in
let va_f12 = va_lemma_merge_total va_b12 va_s12 va_fc13 va_s13 va_f13 va_sM in
let va_f11 = va_lemma_merge_total va_b11 va_s11 va_fc12 va_s12 va_f12 va_sM in
let va_f10 = va_lemma_merge_total va_b10 va_s10 va_fc11 va_s11 va_f11 va_sM in
let va_f9 = va_lemma_merge_total va_b9 va_s9 va_fc10 va_s10 va_f10 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc9 va_s9 va_f9 va_sM in
(va_sM, va_fM) | {
"file_name": "obj/Vale.AES.X64.AESopt.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 16,
"end_line": 655,
"start_col": 0,
"start_line": 619
} | module Vale.AES.X64.AESopt
open FStar.Mul
open Vale.Def.Prop_s
open Vale.Def.Opaque_s
open Vale.Def.Words_s
open Vale.Def.Types_s
open FStar.Seq
open Vale.Arch.Types
open Vale.Arch.HeapImpl
open Vale.AES.AES_s
open Vale.X64.Machine_s
open Vale.X64.Memory
open Vale.X64.State
open Vale.X64.Decls
open Vale.X64.InsBasic
open Vale.X64.InsMem
open Vale.X64.InsVector
open Vale.X64.InsAes
open Vale.X64.QuickCode
open Vale.X64.QuickCodes
open Vale.AES.AES_helpers
//open Vale.Poly1305.Math // For lemma_poly_bits64()
open Vale.AES.GCM_helpers
open Vale.AES.GCTR_s
open Vale.AES.GCTR
open Vale.Arch.TypesNative
open Vale.X64.CPU_Features_s
open Vale.Math.Poly2_s
open Vale.AES.GF128_s
open Vale.AES.GF128
open Vale.AES.GHash
open Vale.AES.X64.PolyOps
open Vale.AES.X64.AESopt2
open Vale.AES.X64.AESGCM_expected_code
open Vale.Transformers.Transform
open FStar.Mul
let add = Vale.Math.Poly2_s.add
#reset-options "--z3rlimit 30"
//-- finish_aes_encrypt_le
val finish_aes_encrypt_le : alg:algorithm -> input_LE:quad32 -> key:(seq nat32)
-> Lemma
(requires (Vale.AES.AES_s.is_aes_key_LE alg key))
(ensures (Vale.AES.AES_s.aes_encrypt_LE alg key input_LE == Vale.AES.AES_s.eval_cipher alg
input_LE (Vale.AES.AES_s.key_to_round_keys_LE alg key)))
let finish_aes_encrypt_le alg input_LE key =
Vale.AES.AES_s.aes_encrypt_LE_reveal ();
Vale.AES.AES_s.eval_cipher_reveal ();
()
//--
//-- Load_two_lsb
[@ "opaque_to_smt"]
let va_code_Load_two_lsb dst =
(va_Block (va_CCons (va_code_ZeroXmm dst) (va_CCons (va_code_PinsrqImm dst 2 0
(va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
[@ "opaque_to_smt"]
let va_codegen_success_Load_two_lsb dst =
(va_pbool_and (va_codegen_success_ZeroXmm dst) (va_pbool_and (va_codegen_success_PinsrqImm dst 2
0 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ())))
[@"opaque_to_smt"]
let va_lemma_Load_two_lsb va_b0 va_s0 dst =
va_reveal_opaque (`%va_code_Load_two_lsb) (va_code_Load_two_lsb dst);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s3, va_fc3) = va_lemma_ZeroXmm (va_hd va_b1) va_s0 dst in
let va_b3 = va_tl va_b1 in
Vale.Arch.Types.lemma_insert_nat64_nat32s (va_eval_xmm va_s3 dst) 2 0;
assert (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 2 0) == 2);
let (va_s6, va_fc6) = va_lemma_PinsrqImm (va_hd va_b3) va_s3 dst 2 0 (va_op_reg_opr64_reg64 rR11)
in
let va_b6 = va_tl va_b3 in
let (va_sM, va_f6) = va_lemma_empty_total va_s6 va_b6 in
let va_f3 = va_lemma_merge_total va_b3 va_s3 va_fc6 va_s6 va_f6 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc3 va_s3 va_f3 va_sM in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Load_two_lsb dst va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_two_lsb (va_code_Load_two_lsb dst) va_s0 dst in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Load_0xc2_msb
val va_code_Load_0xc2_msb : dst:va_operand_xmm -> Tot va_code
[@ "opaque_to_smt"]
let va_code_Load_0xc2_msb dst =
(va_Block (va_CCons (va_code_ZeroXmm dst) (va_CCons (va_code_PinsrqImm dst 13979173243358019584 1
(va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
val va_codegen_success_Load_0xc2_msb : dst:va_operand_xmm -> Tot va_pbool
[@ "opaque_to_smt"]
let va_codegen_success_Load_0xc2_msb dst =
(va_pbool_and (va_codegen_success_ZeroXmm dst) (va_pbool_and (va_codegen_success_PinsrqImm dst
13979173243358019584 1 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ())))
val va_lemma_Load_0xc2_msb : va_b0:va_code -> va_s0:va_state -> dst:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Load_0xc2_msb dst) va_s0 /\ va_is_dst_xmm dst va_s0 /\
va_get_ok va_s0 /\ sse_enabled))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_xmm va_sM dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 3254779904 /\
va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0))))))
[@"opaque_to_smt"]
let va_lemma_Load_0xc2_msb va_b0 va_s0 dst =
va_reveal_opaque (`%va_code_Load_0xc2_msb) (va_code_Load_0xc2_msb dst);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s3, va_fc3) = va_lemma_ZeroXmm (va_hd va_b1) va_s0 dst in
let va_b3 = va_tl va_b1 in
assert (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 0
3254779904) == 13979173243358019584);
Vale.Arch.Types.lemma_insert_nat64_nat32s (va_eval_xmm va_s3 dst) 0 3254779904;
let (va_s6, va_fc6) = va_lemma_PinsrqImm (va_hd va_b3) va_s3 dst 13979173243358019584 1
(va_op_reg_opr64_reg64 rR11) in
let va_b6 = va_tl va_b3 in
let (va_sM, va_f6) = va_lemma_empty_total va_s6 va_b6 in
let va_f3 = va_lemma_merge_total va_b3 va_s3 va_fc6 va_s6 va_f6 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc3 va_s3 va_f3 va_sM in
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Load_0xc2_msb (dst:va_operand_xmm) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) :
Type0 =
(va_is_dst_xmm dst va_s0 /\ va_get_ok va_s0 /\ sse_enabled /\ (forall (va_x_dst:va_value_xmm)
(va_x_r11:nat64) (va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_reg64
rR11 va_x_r11 (va_upd_operand_xmm dst va_x_dst va_s0)) in va_get_ok va_sM /\ va_eval_xmm va_sM
dst == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 3254779904 ==> va_k va_sM (())))
val va_wpProof_Load_0xc2_msb : dst:va_operand_xmm -> va_s0:va_state -> va_k:(va_state -> unit ->
Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Load_0xc2_msb dst va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Load_0xc2_msb dst) ([va_Mod_flags;
va_Mod_reg64 rR11; va_mod_xmm dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Load_0xc2_msb dst va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_0xc2_msb (va_code_Load_0xc2_msb dst) va_s0 dst in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Load_0xc2_msb (dst:va_operand_xmm) : (va_quickCode unit (va_code_Load_0xc2_msb dst)) =
(va_QProc (va_code_Load_0xc2_msb dst) ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst])
(va_wp_Load_0xc2_msb dst) (va_wpProof_Load_0xc2_msb dst))
//--
//-- Load_one_lsb
[@ "opaque_to_smt"]
let va_code_Load_one_lsb dst =
(va_Block (va_CCons (va_code_ZeroXmm dst) (va_CCons (va_code_PinsrqImm dst 1 0
(va_op_reg_opr64_reg64 rR11)) (va_CNil ()))))
[@ "opaque_to_smt"]
let va_codegen_success_Load_one_lsb dst =
(va_pbool_and (va_codegen_success_ZeroXmm dst) (va_pbool_and (va_codegen_success_PinsrqImm dst 1
0 (va_op_reg_opr64_reg64 rR11)) (va_ttrue ())))
[@"opaque_to_smt"]
let va_lemma_Load_one_lsb va_b0 va_s0 dst =
va_reveal_opaque (`%va_code_Load_one_lsb) (va_code_Load_one_lsb dst);
let (va_old_s:va_state) = va_s0 in
let (va_b1:va_codes) = va_get_block va_b0 in
let (va_s3, va_fc3) = va_lemma_ZeroXmm (va_hd va_b1) va_s0 dst in
let va_b3 = va_tl va_b1 in
Vale.Arch.Types.lemma_insert_nat64_nat32s (va_eval_xmm va_s3 dst) 1 0;
assert (Vale.Arch.Types.two_to_nat32 (Vale.Def.Words_s.Mktwo #Vale.Def.Words_s.nat32 1 0) == 1);
let (va_s6, va_fc6) = va_lemma_PinsrqImm (va_hd va_b3) va_s3 dst 1 0 (va_op_reg_opr64_reg64 rR11)
in
let va_b6 = va_tl va_b3 in
let (va_sM, va_f6) = va_lemma_empty_total va_s6 va_b6 in
let va_f3 = va_lemma_merge_total va_b3 va_s3 va_fc6 va_s6 va_f6 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc3 va_s3 va_f3 va_sM in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Load_one_lsb dst va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Load_one_lsb (va_code_Load_one_lsb dst) va_s0 dst in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_reg64 rR11 va_sM (va_update_ok va_sM
(va_update_operand_xmm dst va_sM va_s0)))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_reg64 rR11; va_mod_xmm dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Handle_ctr32
val va_code_Handle_ctr32 : va_dummy:unit -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Handle_ctr32 () =
(va_Block (va_CCons (va_code_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR11))
(va_CCons (va_code_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CCons
(va_code_Load_one_lsb (va_op_xmm_xmm 5)) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 10)
(va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons (va_code_Load_two_lsb (va_op_xmm_xmm 5))
(va_CCons (va_code_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)) (va_CCons
(va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_CCons
(va_code_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_CNil
()))))))))))))))))))))
val va_codegen_success_Handle_ctr32 : va_dummy:unit -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Handle_ctr32 () =
(va_pbool_and (va_codegen_success_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR11))
(va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm
0)) (va_pbool_and (va_codegen_success_Load_one_lsb (va_op_xmm_xmm 5)) (va_pbool_and
(va_codegen_success_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5))
(va_pbool_and (va_codegen_success_Load_two_lsb (va_op_xmm_xmm 5)) (va_pbool_and
(va_codegen_success_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5))
(va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm
5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10)
(va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm
11) (va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm
10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_pbool_and (va_codegen_success_VPaddd
(va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_pbool_and
(va_codegen_success_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0))
(va_pbool_and (va_codegen_success_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm
15)) (va_pbool_and (va_codegen_success_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13)
(va_op_xmm_xmm 5)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm
13) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm 14)
(va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_pbool_and (va_codegen_success_VPshufb (va_op_xmm_xmm
1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_ttrue ())))))))))))))))))))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Handle_ctr32 (va_mods:va_mods_t) (ctr_BE:quad32) : (va_quickCode unit
(va_code_Handle_ctr32 ())) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 256 column 19 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_InitPshufbMask (va_op_xmm_xmm 0) (va_op_reg_opr64_reg64 rR11)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 257 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 6) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 261 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load_one_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 262 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 10) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 263 column 17 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load_two_lsb (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 264 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 11) (va_op_xmm_xmm 6) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 265 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 12) (va_op_xmm_xmm 10) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 266 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 267 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 13) (va_op_xmm_xmm 11) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 268 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 269 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 270 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 14) (va_op_xmm_xmm 12) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 271 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 272 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 273 column 11 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 13) (va_op_xmm_xmm 5)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 274 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 275 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) (va_op_xmm_xmm 0)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 276 column 12 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPshufb (va_op_xmm_xmm 1) (va_op_xmm_xmm 1) (va_op_xmm_xmm 0)) (va_QEmpty
(())))))))))))))))))))))
val va_lemma_Handle_ctr32 : va_b0:va_code -> va_s0:va_state -> ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Handle_ctr32 ()) va_s0 /\ va_get_ok va_s0 /\
(avx_enabled /\ sse_enabled /\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32
ctr_BE)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM, va_get_xmm
14 va_sM, va_get_xmm 1 va_sM) == xor_reverse_inc32lite_6 2 1 ctr_BE (va_get_xmm 15 va_sM) /\
va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM
(va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM
(va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0)))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Handle_ctr32 va_b0 va_s0 ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm
11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR11; va_Mod_ok] in
let va_qc = va_qcode_Handle_ctr32 va_mods ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Handle_ctr32 ()) va_qc va_s0 (fun va_s0
va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 234 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 254 column 107 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM,
va_get_xmm 14 va_sM, va_get_xmm 1 va_sM) == xor_reverse_inc32lite_6 2 1 ctr_BE (va_get_xmm 15
va_sM))) in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR11; va_Mod_ok]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Handle_ctr32 (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state -> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (avx_enabled /\ sse_enabled /\ va_get_xmm 1 va_s0 ==
Vale.Def.Types_s.reverse_bytes_quad32 ctr_BE) /\ (forall (va_x_r11:nat64) (va_x_xmm0:quad32)
(va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32) (va_x_xmm6:quad32) (va_x_xmm10:quad32)
(va_x_xmm11:quad32) (va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32)
(va_x_efl:Vale.X64.Flags.t) . let va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14
(va_upd_xmm 13 va_x_xmm13 (va_upd_xmm 12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10
va_x_xmm10 (va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm
1 va_x_xmm1 (va_upd_xmm 0 va_x_xmm0 (va_upd_reg64 rR11 va_x_r11 va_s0))))))))))) in va_get_ok
va_sM /\ (va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm 13 va_sM,
va_get_xmm 14 va_sM, va_get_xmm 1 va_sM) == xor_reverse_inc32lite_6 2 1 ctr_BE (va_get_xmm 15
va_sM) ==> va_k va_sM (())))
val va_wpProof_Handle_ctr32 : ctr_BE:quad32 -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Handle_ctr32 ctr_BE va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Handle_ctr32 ()) ([va_Mod_flags;
va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6;
va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_reg64 rR11]) va_s0 va_k ((va_sM,
va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Handle_ctr32 ctr_BE va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Handle_ctr32 (va_code_Handle_ctr32 ()) va_s0 ctr_BE in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 6 va_sM
(va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM (va_update_xmm 0 va_sM
(va_update_reg64 rR11 va_sM (va_update_ok va_sM va_s0))))))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0;
va_Mod_reg64 rR11]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Handle_ctr32 (ctr_BE:quad32) : (va_quickCode unit (va_code_Handle_ctr32 ())) =
(va_QProc (va_code_Handle_ctr32 ()) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12;
va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1;
va_Mod_xmm 0; va_Mod_reg64 rR11]) (va_wp_Handle_ctr32 ctr_BE) (va_wpProof_Handle_ctr32 ctr_BE))
//--
//-- Loop6x_ctr_update
val va_code_Loop6x_ctr_update : alg:algorithm -> Tot va_code
[@ "opaque_to_smt" va_qattr]
let va_code_Loop6x_ctr_update alg =
(va_Block (va_CCons (va_code_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (va_CCons
(va_IfElse (va_cmp_ge (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (va_Block (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret) (va_CCons (va_code_Handle_ctr32 ()) (va_CCons (va_code_Sub64
(va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_CNil ()))))) (va_Block (va_CCons
(va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret) (va_CCons (va_code_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 2)
(va_op_xmm_xmm 14)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10)
(va_op_opr128_xmm 15)) (va_CCons (va_code_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11)
(va_op_opr128_xmm 15)) (va_CNil ()))))))) (va_CNil ()))))
val va_codegen_success_Loop6x_ctr_update : alg:algorithm -> Tot va_pbool
[@ "opaque_to_smt" va_qattr]
let va_codegen_success_Loop6x_ctr_update alg =
(va_pbool_and (va_codegen_success_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6))
(va_pbool_and (va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0)
(va_op_xmm_xmm 3) (va_op_reg_opr64_reg64 rR9) (0 - 32) Secret) (va_pbool_and
(va_codegen_success_Handle_ctr32 ()) (va_pbool_and (va_codegen_success_Sub64
(va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_pbool_and
(va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3)
(va_op_reg_opr64_reg64 rR9) (0 - 32) Secret) (va_pbool_and (va_codegen_success_VPaddd
(va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 14)) (va_pbool_and (va_codegen_success_VPxor
(va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_codegen_success_VPxor
(va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)))))))) (va_ttrue ())))
[@ "opaque_to_smt" va_qattr]
let va_qcode_Loop6x_ctr_update (va_mods:va_mods_t) (alg:algorithm) (h_LE:quad32) (key_words:(seq
nat32)) (round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) :
(va_quickCode unit (va_code_Loop6x_ctr_update alg)) =
(qblock va_mods (fun (va_s:va_state) -> let (va_old_s:va_state) = va_s in let
(h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_QBind va_range1
"***** PRECONDITION NOT MET AT line 339 column 10 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Add64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 6)) (fun (va_s:va_state) _ ->
va_QBind va_range1
"***** PRECONDITION NOT MET AT line 340 column 8 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_qIf va_mods (Cmp_ge (va_op_cmp_reg64 rRbx) (va_const_cmp 256)) (qblock va_mods (fun
(va_s:va_state) -> va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 341 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret hkeys_b 0) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 342 column 21 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Handle_ctr32 ctr_BE) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 343 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Sub64 (va_op_dst_opr64_reg64 rRbx) (va_const_opr64 256)) (va_QEmpty (())))))) (qblock
va_mods (fun (va_s:va_state) -> va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 345 column 23 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_Load128_buffer (va_op_heaplet_mem_heaplet 0) (va_op_xmm_xmm 3) (va_op_reg_opr64_reg64
rR9) (0 - 32) Secret hkeys_b 0) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 346 column 15 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPaddd (va_op_xmm_xmm 1) (va_op_xmm_xmm 2) (va_op_xmm_xmm 14)) (va_QSeq va_range1
"***** PRECONDITION NOT MET AT line 347 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) (va_op_opr128_xmm 15)) (va_QBind
va_range1
"***** PRECONDITION NOT MET AT line 348 column 14 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_quick_VPxor (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) (va_op_opr128_xmm 15)) (fun
(va_s:va_state) _ -> let (va_arg36:Prims.nat) = va_get_reg64 rRbx va_old_s in let
(va_arg35:Vale.Def.Types_s.quad32) = va_get_xmm 1 va_s in let
(va_arg34:Vale.Def.Types_s.quad32) = va_get_xmm 14 va_s in let
(va_arg33:Vale.Def.Types_s.quad32) = ctr_BE in va_qPURE va_range1
"***** PRECONDITION NOT MET AT line 349 column 28 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(fun (_:unit) -> Vale.AES.AES_helpers.lemma_msb_in_bounds va_arg33 va_arg34 va_arg35 va_arg36)
(va_QEmpty (()))))))))) (fun (va_s:va_state) va_g -> va_QEmpty (())))))
val va_lemma_Loop6x_ctr_update : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> h_LE:quad32 ->
key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 ->
ctr_BE:quad32
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_ctr_update alg) va_s0 /\ va_get_ok va_s0 /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ aes_reqs_offset alg key_words
round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout
va_s0) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216
/\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE
0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus`
256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_get_xmm 1 va_sM ==
Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <= va_get_reg64
rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == xor_reverse_inc32lite_6 3 0 ctr_BE (va_get_xmm 15
va_sM) /\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0
va_sM)) /\ va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13
va_sM (va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9
va_sM (va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1
va_sM (va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64 rR11 va_sM
(va_update_reg64 rRbx va_sM (va_update_ok va_sM va_s0))))))))))))))))))
[@"opaque_to_smt"]
let va_lemma_Loop6x_ctr_update va_b0 va_s0 alg h_LE key_words round_keys keys_b hkeys_b ctr_BE =
let (va_mods:va_mods_t) = [va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm
11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1;
va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok] in
let va_qc = va_qcode_Loop6x_ctr_update va_mods alg h_LE key_words round_keys keys_b hkeys_b
ctr_BE in
let (va_sM, va_fM, va_g) = va_wp_sound_code_norm (va_code_Loop6x_ctr_update alg) va_qc va_s0 (fun
va_s0 va_sM va_g -> let () = va_g in label va_range1
"***** POSTCONDITION NOT MET AT line 279 column 1 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_ok va_sM) /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in label va_range1
"***** POSTCONDITION NOT MET AT line 330 column 57 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 1 va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE
6)) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 331 column 27 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(0 <= va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 332 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_reg64 rRbx va_sM == Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite
ctr_BE 6) `op_Modulus` 256) /\ label va_range1
"***** POSTCONDITION NOT MET AT line 334 column 58 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
((va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == xor_reverse_inc32lite_6 3 0 ctr_BE (va_get_xmm 15 va_sM)) /\
label va_range1
"***** POSTCONDITION NOT MET AT line 335 column 50 of file /home/gebner/fstar_dataset/projects/hacl-star/vale/code/thirdPartyPorts/OpenSSL/aes/Vale.AES.X64.AESopt.vaf *****"
(va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0 va_sM))))
in
assert_norm (va_qc.mods == va_mods);
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm
0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx; va_Mod_ok]) va_sM va_s0;
(va_sM, va_fM)
[@ va_qattr]
let va_wp_Loop6x_ctr_update (alg:algorithm) (h_LE:quad32) (key_words:(seq nat32)) (round_keys:(seq
quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) (va_s0:va_state) (va_k:(va_state
-> unit -> Type0)) : Type0 =
(va_get_ok va_s0 /\ (let (h:Vale.Math.Poly2_s.poly) = Vale.Math.Poly2.Bits_s.of_quad32
(Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in sse_enabled /\ aes_reqs_offset alg key_words
round_keys keys_b (va_get_reg64 rRcx va_s0) (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout
va_s0) /\ va_get_xmm 2 va_s0 == Vale.Def.Words_s.Mkfour #Vale.Def.Types_s.nat32 0 0 0 16777216
/\ va_get_xmm 1 va_s0 == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE
0) /\ va_get_reg64 rRbx va_s0 == Vale.Def.Words_s.__proj__Mkfour__item__lo0 ctr_BE `op_Modulus`
256 /\ va_get_xmm 9 va_s0 == Vale.Def.Types_s.quad32_xor (Vale.Def.Types_s.reverse_bytes_quad32
(Vale.AES.GCTR.inc32lite ctr_BE 0)) (va_get_xmm 15 va_s0) /\ (va_get_reg64 rRbx va_s0 + 6 < 256
==> (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm 12 va_s0,
va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == xor_reverse_inc32lite_6 1 0 ctr_BE (va_get_xmm 15
va_s0)) /\ hkeys_b_powers hkeys_b (va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0)
(va_get_reg64 rR9 va_s0 - 32) h) /\ (forall (va_x_rbx:nat64) (va_x_r11:nat64)
(va_x_xmm3:quad32) (va_x_xmm0:quad32) (va_x_xmm1:quad32) (va_x_xmm2:quad32) (va_x_xmm5:quad32)
(va_x_xmm6:quad32) (va_x_xmm9:quad32) (va_x_xmm10:quad32) (va_x_xmm11:quad32)
(va_x_xmm12:quad32) (va_x_xmm13:quad32) (va_x_xmm14:quad32) (va_x_efl:Vale.X64.Flags.t) . let
va_sM = va_upd_flags va_x_efl (va_upd_xmm 14 va_x_xmm14 (va_upd_xmm 13 va_x_xmm13 (va_upd_xmm
12 va_x_xmm12 (va_upd_xmm 11 va_x_xmm11 (va_upd_xmm 10 va_x_xmm10 (va_upd_xmm 9 va_x_xmm9
(va_upd_xmm 6 va_x_xmm6 (va_upd_xmm 5 va_x_xmm5 (va_upd_xmm 2 va_x_xmm2 (va_upd_xmm 1 va_x_xmm1
(va_upd_xmm 0 va_x_xmm0 (va_upd_xmm 3 va_x_xmm3 (va_upd_reg64 rR11 va_x_r11 (va_upd_reg64 rRbx
va_x_rbx va_s0)))))))))))))) in va_get_ok va_sM /\ (let (h:Vale.Math.Poly2_s.poly) =
Vale.Math.Poly2.Bits_s.of_quad32 (Vale.Def.Types_s.reverse_bytes_quad32 h_LE) in va_get_xmm 1
va_sM == Vale.Def.Types_s.reverse_bytes_quad32 (Vale.AES.GCTR.inc32lite ctr_BE 6) /\ (0 <=
va_get_reg64 rRbx va_sM /\ va_get_reg64 rRbx va_sM < 256) /\ va_get_reg64 rRbx va_sM ==
Vale.Def.Words_s.__proj__Mkfour__item__lo0 (Vale.AES.GCTR.inc32lite ctr_BE 6) `op_Modulus` 256
/\ (va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM,
va_get_xmm 13 va_sM, va_get_xmm 14 va_sM) == xor_reverse_inc32lite_6 3 0 ctr_BE (va_get_xmm 15
va_sM) /\ va_get_xmm 3 va_sM == Vale.X64.Decls.buffer128_read hkeys_b 0 (va_get_mem_heaplet 0
va_sM)) ==> va_k va_sM (())))
val va_wpProof_Loop6x_ctr_update : alg:algorithm -> h_LE:quad32 -> key_words:(seq nat32) ->
round_keys:(seq quad32) -> keys_b:buffer128 -> hkeys_b:buffer128 -> ctr_BE:quad32 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Loop6x_ctr_update alg h_LE key_words round_keys keys_b
hkeys_b ctr_BE va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Loop6x_ctr_update alg) ([va_Mod_flags;
va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9;
va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3;
va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_s0 va_k ((va_sM, va_f0, va_g))))
[@"opaque_to_smt"]
let va_wpProof_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Loop6x_ctr_update (va_code_Loop6x_ctr_update alg) va_s0 alg h_LE
key_words round_keys keys_b hkeys_b ctr_BE in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM
(va_update_xmm 12 va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM
(va_update_xmm 6 va_sM (va_update_xmm 5 va_sM (va_update_xmm 2 va_sM (va_update_xmm 1 va_sM
(va_update_xmm 0 va_sM (va_update_xmm 3 va_sM (va_update_reg64 rR11 va_sM (va_update_reg64 rRbx
va_sM (va_update_ok va_sM va_s0)))))))))))))))));
va_lemma_norm_mods ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13; va_Mod_xmm 12; va_Mod_xmm 11;
va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5; va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm
0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
[@ "opaque_to_smt" va_qattr]
let va_quick_Loop6x_ctr_update (alg:algorithm) (h_LE:quad32) (key_words:(seq nat32))
(round_keys:(seq quad32)) (keys_b:buffer128) (hkeys_b:buffer128) (ctr_BE:quad32) : (va_quickCode
unit (va_code_Loop6x_ctr_update alg)) =
(va_QProc (va_code_Loop6x_ctr_update alg) ([va_Mod_flags; va_Mod_xmm 14; va_Mod_xmm 13;
va_Mod_xmm 12; va_Mod_xmm 11; va_Mod_xmm 10; va_Mod_xmm 9; va_Mod_xmm 6; va_Mod_xmm 5;
va_Mod_xmm 2; va_Mod_xmm 1; va_Mod_xmm 0; va_Mod_xmm 3; va_Mod_reg64 rR11; va_Mod_reg64 rRbx])
(va_wp_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE)
(va_wpProof_Loop6x_ctr_update alg h_LE key_words round_keys keys_b hkeys_b ctr_BE))
//--
//-- Loop6x_plain
val va_code_Loop6x_plain : alg:algorithm -> rnd:nat -> rndkey:va_operand_xmm -> Tot va_code
[@ "opaque_to_smt"]
let va_code_Loop6x_plain alg rnd rndkey =
(va_Block (va_CCons (va_code_Load128_buffer (va_op_heaplet_mem_heaplet 0) rndkey
(va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 1) - 128) Secret) (va_CCons
(va_code_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) rndkey) (va_CCons (va_code_VAESNI_enc
(va_op_xmm_xmm 10) (va_op_xmm_xmm 10) rndkey) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 11)
(va_op_xmm_xmm 11) rndkey) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12)
rndkey) (va_CCons (va_code_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) rndkey) (va_CCons
(va_code_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) rndkey) (va_CNil ())))))))))
val va_codegen_success_Loop6x_plain : alg:algorithm -> rnd:nat -> rndkey:va_operand_xmm -> Tot
va_pbool
[@ "opaque_to_smt"]
let va_codegen_success_Loop6x_plain alg rnd rndkey =
(va_pbool_and (va_codegen_success_Load128_buffer (va_op_heaplet_mem_heaplet 0) rndkey
(va_op_reg_opr64_reg64 rRcx) (16 `op_Multiply` (rnd + 1) - 128) Secret) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) rndkey) (va_pbool_and
(va_codegen_success_VAESNI_enc (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) rndkey) (va_ttrue
()))))))))
val va_lemma_Loop6x_plain : va_b0:va_code -> va_s0:va_state -> alg:algorithm -> rnd:nat ->
key_words:(seq nat32) -> round_keys:(seq quad32) -> keys_b:buffer128 -> init:quad32_6 ->
rndkey:va_operand_xmm
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Loop6x_plain alg rnd rndkey) va_s0 /\ va_is_dst_xmm
rndkey va_s0 /\ va_get_ok va_s0 /\ (sse_enabled /\ (rndkey == 1 \/ rndkey == 2 \/ rndkey == 15)
/\ aes_reqs_offset alg key_words round_keys keys_b (va_get_reg64 rRcx va_s0)
(va_get_mem_heaplet 0 va_s0) (va_get_mem_layout va_s0) /\ rnd + 1 < FStar.Seq.Base.length
#quad32 round_keys /\ (va_get_xmm 9 va_s0, va_get_xmm 10 va_s0, va_get_xmm 11 va_s0, va_get_xmm
12 va_s0, va_get_xmm 13 va_s0, va_get_xmm 14 va_s0) == rounds_opaque_6 init round_keys rnd)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
(va_get_xmm 9 va_sM, va_get_xmm 10 va_sM, va_get_xmm 11 va_sM, va_get_xmm 12 va_sM, va_get_xmm
13 va_sM, va_get_xmm 14 va_sM) == rounds_opaque_6 init round_keys (rnd + 1) /\ va_state_eq
va_sM (va_update_flags va_sM (va_update_xmm 14 va_sM (va_update_xmm 13 va_sM (va_update_xmm 12
va_sM (va_update_xmm 11 va_sM (va_update_xmm 10 va_sM (va_update_xmm 9 va_sM (va_update_ok
va_sM (va_update_operand_xmm rndkey va_sM va_s0))))))))))) | {
"checked_file": "/",
"dependencies": [
"Vale.X64.State.fsti.checked",
"Vale.X64.QuickCodes.fsti.checked",
"Vale.X64.QuickCode.fst.checked",
"Vale.X64.Memory.fsti.checked",
"Vale.X64.Machine_s.fst.checked",
"Vale.X64.InsVector.fsti.checked",
"Vale.X64.InsMem.fsti.checked",
"Vale.X64.InsBasic.fsti.checked",
"Vale.X64.InsAes.fsti.checked",
"Vale.X64.Flags.fsti.checked",
"Vale.X64.Decls.fsti.checked",
"Vale.X64.CPU_Features_s.fst.checked",
"Vale.Transformers.Transform.fsti.checked",
"Vale.Math.Poly2_s.fsti.checked",
"Vale.Math.Poly2.Bits_s.fsti.checked",
"Vale.Math.Poly2.Bits.fsti.checked",
"Vale.Def.Words_s.fsti.checked",
"Vale.Def.Types_s.fst.checked",
"Vale.Def.Prop_s.fst.checked",
"Vale.Def.Opaque_s.fsti.checked",
"Vale.Arch.TypesNative.fsti.checked",
"Vale.Arch.Types.fsti.checked",
"Vale.Arch.HeapImpl.fsti.checked",
"Vale.AES.X64.PolyOps.fsti.checked",
"Vale.AES.X64.AESopt2.fsti.checked",
"Vale.AES.X64.AESGCM_expected_code.fsti.checked",
"Vale.AES.GHash.fsti.checked",
"Vale.AES.GF128_s.fsti.checked",
"Vale.AES.GF128.fsti.checked",
"Vale.AES.GCTR_s.fst.checked",
"Vale.AES.GCTR.fsti.checked",
"Vale.AES.GCM_helpers.fsti.checked",
"Vale.AES.AES_s.fst.checked",
"Vale.AES.AES_helpers.fsti.checked",
"Vale.AES.AES_common_s.fst.checked",
"prims.fst.checked",
"FStar.Seq.Base.fsti.checked",
"FStar.Seq.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked"
],
"interface_file": true,
"source_file": "Vale.AES.X64.AESopt.fst"
} | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Transformers.Transform",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESGCM_expected_code",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESopt2",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.PolyOps",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GHash",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Math.Poly2_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.TypesNative",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCM_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsAes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"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.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Seq",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_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": "FStar.Mul",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Transformers.Transform",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESGCM_expected_code",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.AESopt2",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.X64.PolyOps",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GHash",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GF128_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Math.Poly2_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.CPU_Features_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.TypesNative",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCTR_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.GCM_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_helpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCodes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsAes",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsMem",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.InsBasic",
"short_module": null
},
{
"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.X64.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.X64.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.AES_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.HeapImpl",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Seq",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Types_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Opaque_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.AES.X64",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.AES.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": 30,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
va_b0: Vale.X64.Decls.va_code ->
va_s0: Vale.X64.Decls.va_state ->
alg: Vale.AES.AES_common_s.algorithm ->
rnd: Prims.nat ->
key_words: FStar.Seq.Base.seq Vale.X64.Memory.nat32 ->
round_keys: FStar.Seq.Base.seq Vale.X64.Decls.quad32 ->
keys_b: Vale.X64.Memory.buffer128 ->
init: Vale.AES.X64.AESopt.quad32_6 ->
rndkey: Vale.X64.Decls.va_operand_xmm
-> Prims.Ghost (Vale.X64.Decls.va_state * Vale.X64.Decls.va_fuel) | Prims.Ghost | [] | [] | [
"Vale.X64.Decls.va_code",
"Vale.X64.Decls.va_state",
"Vale.AES.AES_common_s.algorithm",
"Prims.nat",
"FStar.Seq.Base.seq",
"Vale.X64.Memory.nat32",
"Vale.X64.Decls.quad32",
"Vale.X64.Memory.buffer128",
"Vale.AES.X64.AESopt.quad32_6",
"Vale.X64.Decls.va_operand_xmm",
"Vale.X64.Decls.va_fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.X64.Decls.va_lemma_merge_total",
"FStar.Pervasives.Native.tuple2",
"Vale.X64.State.vale_state",
"Vale.X64.Decls.va_lemma_empty_total",
"Prims.unit",
"Vale.AES.AES_helpers.commute_sub_bytes_shift_rows_forall",
"Vale.AES.AES_s.eval_rounds_reveal",
"Prims.list",
"Vale.X64.Machine_s.precode",
"Vale.X64.Decls.ins",
"Vale.X64.Decls.ocmp",
"Vale.X64.Decls.va_tl",
"Vale.X64.InsAes.va_lemma_VAESNI_enc",
"Vale.X64.Decls.va_hd",
"Vale.X64.Decls.va_op_xmm_xmm",
"Vale.X64.InsVector.va_lemma_Load128_buffer",
"Vale.X64.Decls.va_op_heaplet_mem_heaplet",
"Vale.X64.Decls.va_op_reg_opr64_reg64",
"Vale.X64.Machine_s.rRcx",
"Prims.op_Subtraction",
"Prims.op_Multiply",
"Prims.op_Addition",
"Vale.Arch.HeapTypes_s.Secret",
"Vale.X64.Decls.va_get_block",
"Vale.X64.Decls.va_reveal_opaque",
"Vale.AES.X64.AESopt.va_code_Loop6x_plain"
] | [] | false | false | false | false | false | let va_lemma_Loop6x_plain va_b0 va_s0 alg rnd key_words round_keys keys_b init rndkey =
| va_reveal_opaque (`%va_code_Loop6x_plain) (va_code_Loop6x_plain alg rnd rndkey);
let va_old_s:va_state = va_s0 in
let va_b1:va_codes = va_get_block va_b0 in
let va_s9, va_fc9 =
va_lemma_Load128_buffer (va_hd va_b1)
va_s0
(va_op_heaplet_mem_heaplet 0)
rndkey
(va_op_reg_opr64_reg64 rRcx)
(16 `op_Multiply` (rnd + 1) - 128)
Secret
keys_b
(rnd + 1)
in
let va_b9 = va_tl va_b1 in
let va_s10, va_fc10 =
va_lemma_VAESNI_enc (va_hd va_b9) va_s9 (va_op_xmm_xmm 9) (va_op_xmm_xmm 9) rndkey
in
let va_b10 = va_tl va_b9 in
let va_s11, va_fc11 =
va_lemma_VAESNI_enc (va_hd va_b10) va_s10 (va_op_xmm_xmm 10) (va_op_xmm_xmm 10) rndkey
in
let va_b11 = va_tl va_b10 in
let va_s12, va_fc12 =
va_lemma_VAESNI_enc (va_hd va_b11) va_s11 (va_op_xmm_xmm 11) (va_op_xmm_xmm 11) rndkey
in
let va_b12 = va_tl va_b11 in
let va_s13, va_fc13 =
va_lemma_VAESNI_enc (va_hd va_b12) va_s12 (va_op_xmm_xmm 12) (va_op_xmm_xmm 12) rndkey
in
let va_b13 = va_tl va_b12 in
let va_s14, va_fc14 =
va_lemma_VAESNI_enc (va_hd va_b13) va_s13 (va_op_xmm_xmm 13) (va_op_xmm_xmm 13) rndkey
in
let va_b14 = va_tl va_b13 in
let va_s15, va_fc15 =
va_lemma_VAESNI_enc (va_hd va_b14) va_s14 (va_op_xmm_xmm 14) (va_op_xmm_xmm 14) rndkey
in
let va_b15 = va_tl va_b14 in
Vale.AES.AES_s.eval_rounds_reveal ();
Vale.AES.AES_helpers.commute_sub_bytes_shift_rows_forall ();
let va_sM, va_f15 = va_lemma_empty_total va_s15 va_b15 in
let va_f14 = va_lemma_merge_total va_b14 va_s14 va_fc15 va_s15 va_f15 va_sM in
let va_f13 = va_lemma_merge_total va_b13 va_s13 va_fc14 va_s14 va_f14 va_sM in
let va_f12 = va_lemma_merge_total va_b12 va_s12 va_fc13 va_s13 va_f13 va_sM in
let va_f11 = va_lemma_merge_total va_b11 va_s11 va_fc12 va_s12 va_f12 va_sM in
let va_f10 = va_lemma_merge_total va_b10 va_s10 va_fc11 va_s11 va_f11 va_sM in
let va_f9 = va_lemma_merge_total va_b9 va_s9 va_fc10 va_s10 va_f10 va_sM in
let va_fM = va_lemma_merge_total va_b1 va_s0 va_fc9 va_s9 va_f9 va_sM in
(va_sM, va_fM) | false |
FStar.Tactics.V2.Derived.fst | FStar.Tactics.V2.Derived.name_of_bv | val name_of_bv (bv: bv) : Tac string | val name_of_bv (bv: bv) : Tac string | let name_of_bv (bv : bv) : Tac string =
unseal ((inspect_bv bv).ppname) | {
"file_name": "ulib/FStar.Tactics.V2.Derived.fst",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 35,
"end_line": 35,
"start_col": 0,
"start_line": 34
} | (*
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.
*)
module FStar.Tactics.V2.Derived
open FStar.Reflection.V2
open FStar.Reflection.V2.Formula
open FStar.Tactics.Effect
open FStar.Stubs.Tactics.Types
open FStar.Stubs.Tactics.Result
open FStar.Stubs.Tactics.V2.Builtins
open FStar.Tactics.Util
open FStar.Tactics.V2.SyntaxHelpers
open FStar.VConfig
open FStar.Tactics.NamedView
open FStar.Tactics.V2.SyntaxCoercions
module L = FStar.List.Tot.Base
module V = FStar.Tactics.Visit
private let (@) = L.op_At | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.VConfig.fsti.checked",
"FStar.Tactics.Visit.fst.checked",
"FStar.Tactics.V2.SyntaxHelpers.fst.checked",
"FStar.Tactics.V2.SyntaxCoercions.fst.checked",
"FStar.Tactics.Util.fst.checked",
"FStar.Tactics.NamedView.fsti.checked",
"FStar.Tactics.Effect.fsti.checked",
"FStar.Stubs.Tactics.V2.Builtins.fsti.checked",
"FStar.Stubs.Tactics.Types.fsti.checked",
"FStar.Stubs.Tactics.Result.fsti.checked",
"FStar.Squash.fsti.checked",
"FStar.Reflection.V2.Formula.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Range.fsti.checked",
"FStar.PropositionalExtensionality.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.Base.fst.checked"
],
"interface_file": false,
"source_file": "FStar.Tactics.V2.Derived.fst"
} | [
{
"abbrev": true,
"full_module": "FStar.Tactics.Visit",
"short_module": "V"
},
{
"abbrev": true,
"full_module": "FStar.List.Tot.Base",
"short_module": "L"
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2.SyntaxCoercions",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.NamedView",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.VConfig",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2.SyntaxHelpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.Util",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Stubs.Tactics.V2.Builtins",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Stubs.Tactics.Result",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Stubs.Tactics.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.Effect",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.V2.Formula",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2",
"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 | bv: FStar.Tactics.NamedView.bv -> FStar.Tactics.Effect.Tac Prims.string | FStar.Tactics.Effect.Tac | [] | [] | [
"FStar.Tactics.NamedView.bv",
"FStar.Tactics.Unseal.unseal",
"Prims.string",
"FStar.Stubs.Reflection.V2.Data.__proj__Mkbv_view__item__ppname",
"FStar.Tactics.NamedView.inspect_bv"
] | [] | false | true | false | false | false | let name_of_bv (bv: bv) : Tac string =
| unseal ((inspect_bv bv).ppname) | false |
FStar.Tactics.V2.Derived.fst | FStar.Tactics.V2.Derived.binder_to_string | val binder_to_string (b: binder) : Tac string | val binder_to_string (b: binder) : Tac string | let binder_to_string (b : binder) : Tac string =
// TODO: print aqual, attributes..? or no?
name_of_binder b ^ "@@" ^ string_of_int b.uniq ^ "::(" ^ term_to_string b.sort ^ ")" | {
"file_name": "ulib/FStar.Tactics.V2.Derived.fst",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 86,
"end_line": 46,
"start_col": 0,
"start_line": 44
} | (*
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.
*)
module FStar.Tactics.V2.Derived
open FStar.Reflection.V2
open FStar.Reflection.V2.Formula
open FStar.Tactics.Effect
open FStar.Stubs.Tactics.Types
open FStar.Stubs.Tactics.Result
open FStar.Stubs.Tactics.V2.Builtins
open FStar.Tactics.Util
open FStar.Tactics.V2.SyntaxHelpers
open FStar.VConfig
open FStar.Tactics.NamedView
open FStar.Tactics.V2.SyntaxCoercions
module L = FStar.List.Tot.Base
module V = FStar.Tactics.Visit
private let (@) = L.op_At
let name_of_bv (bv : bv) : Tac string =
unseal ((inspect_bv bv).ppname)
let bv_to_string (bv : bv) : Tac string =
(* Could also print type...? *)
name_of_bv bv
let name_of_binder (b : binder) : Tac string =
unseal b.ppname | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.VConfig.fsti.checked",
"FStar.Tactics.Visit.fst.checked",
"FStar.Tactics.V2.SyntaxHelpers.fst.checked",
"FStar.Tactics.V2.SyntaxCoercions.fst.checked",
"FStar.Tactics.Util.fst.checked",
"FStar.Tactics.NamedView.fsti.checked",
"FStar.Tactics.Effect.fsti.checked",
"FStar.Stubs.Tactics.V2.Builtins.fsti.checked",
"FStar.Stubs.Tactics.Types.fsti.checked",
"FStar.Stubs.Tactics.Result.fsti.checked",
"FStar.Squash.fsti.checked",
"FStar.Reflection.V2.Formula.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Range.fsti.checked",
"FStar.PropositionalExtensionality.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.Base.fst.checked"
],
"interface_file": false,
"source_file": "FStar.Tactics.V2.Derived.fst"
} | [
{
"abbrev": true,
"full_module": "FStar.Tactics.Visit",
"short_module": "V"
},
{
"abbrev": true,
"full_module": "FStar.List.Tot.Base",
"short_module": "L"
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2.SyntaxCoercions",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.NamedView",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.VConfig",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2.SyntaxHelpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.Util",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Stubs.Tactics.V2.Builtins",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Stubs.Tactics.Result",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Stubs.Tactics.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.Effect",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.V2.Formula",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2",
"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 | b: FStar.Tactics.NamedView.binder -> FStar.Tactics.Effect.Tac Prims.string | FStar.Tactics.Effect.Tac | [] | [] | [
"FStar.Tactics.NamedView.binder",
"Prims.op_Hat",
"Prims.string",
"Prims.string_of_int",
"FStar.Tactics.NamedView.__proj__Mkbinder__item__uniq",
"FStar.Stubs.Tactics.V2.Builtins.term_to_string",
"FStar.Tactics.NamedView.__proj__Mkbinder__item__sort",
"FStar.Tactics.V2.Derived.name_of_binder"
] | [] | false | true | false | false | false | let binder_to_string (b: binder) : Tac string =
| name_of_binder b ^ "@@" ^ string_of_int b.uniq ^ "::(" ^ term_to_string b.sort ^ ")" | false |
Hacl.Spec.Curve25519.AddAndDouble.fst | Hacl.Spec.Curve25519.AddAndDouble.add_and_double1_1 | val add_and_double1_1 : a: Spec.Curve25519.elem ->
b: Spec.Curve25519.elem ->
nqp1: (Spec.Curve25519.elem * Spec.Curve25519.elem)
-> (Spec.Curve25519.elem * Spec.Curve25519.elem) * (Spec.Curve25519.elem * Spec.Curve25519.elem) | let add_and_double1_1 a b nqp1 =
let x_3, z_3 = nqp1 in
let aa = a *% a in
let bb = b *% b in
let x_3 = x_3 *% x_3 in
let z_3 = z_3 *% z_3 in
let e = aa -% bb in
let e121665 = e *% 121665 in
let aa_e121665 = e121665 +% aa in
let x_2 = aa *% bb in
let z_2 = e *% aa_e121665 in
(x_2, z_2), (x_3, z_3) | {
"file_name": "code/curve25519/Hacl.Spec.Curve25519.AddAndDouble.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 24,
"end_line": 31,
"start_col": 0,
"start_line": 18
} | module Hacl.Spec.Curve25519.AddAndDouble
open FStar.Mul
open Lib.IntTypes
open Spec.Curve25519
let add_and_double1_0 a b nqp1 =
let x_3, z_3 = nqp1 in
let c = x_3 +% z_3 in
let d = x_3 -% z_3 in
let da = d *% a in
let cb = c *% b in
let x_3 = da +% cb in
let z_3 = da -% cb in
(x_3, z_3) | {
"checked_file": "/",
"dependencies": [
"Spec.Curve25519.fst.checked",
"prims.fst.checked",
"Lib.LoopCombinators.fsti.checked",
"Lib.IntTypes.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked"
],
"interface_file": false,
"source_file": "Hacl.Spec.Curve25519.AddAndDouble.fst"
} | [
{
"abbrev": false,
"full_module": "Spec.Curve25519",
"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": "Hacl.Spec.Curve25519",
"short_module": null
},
{
"abbrev": false,
"full_module": "Hacl.Spec.Curve25519",
"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": false,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
a: Spec.Curve25519.elem ->
b: Spec.Curve25519.elem ->
nqp1: (Spec.Curve25519.elem * Spec.Curve25519.elem)
-> (Spec.Curve25519.elem * Spec.Curve25519.elem) * (Spec.Curve25519.elem * Spec.Curve25519.elem) | Prims.Tot | [
"total"
] | [] | [
"Spec.Curve25519.elem",
"FStar.Pervasives.Native.tuple2",
"FStar.Pervasives.Native.Mktuple2",
"Spec.Curve25519.op_Star_Percent",
"Spec.Curve25519.op_Plus_Percent",
"Spec.Curve25519.op_Subtraction_Percent"
] | [] | false | false | false | true | false | let add_and_double1_1 a b nqp1 =
| let x_3, z_3 = nqp1 in
let aa = a *% a in
let bb = b *% b in
let x_3 = x_3 *% x_3 in
let z_3 = z_3 *% z_3 in
let e = aa -% bb in
let e121665 = e *% 121665 in
let aa_e121665 = e121665 +% aa in
let x_2 = aa *% bb in
let z_2 = e *% aa_e121665 in
(x_2, z_2), (x_3, z_3) | false |
|
Vale.PPC64LE.InsStack.fst | Vale.PPC64LE.InsStack.va_wpProof_Store_stack128 | val va_wpProof_Store_stack128 : src:va_operand_vec_opr -> offset: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_Store_stack128 src offset va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store_stack128 src offset)
([va_Mod_stackTaint; va_Mod_stack]) va_s0 va_k ((va_sM, va_f0, va_g)))) | val va_wpProof_Store_stack128 : src:va_operand_vec_opr -> offset: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_Store_stack128 src offset va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Store_stack128 src offset)
([va_Mod_stackTaint; va_Mod_stack]) va_s0 va_k ((va_sM, va_f0, va_g)))) | let va_wpProof_Store_stack128 src offset va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Store_stack128 (va_code_Store_stack128 src offset) va_s0 src offset
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_stackTaint va_sM (va_update_stack va_sM (va_update_ok va_sM
va_s0))));
va_lemma_norm_mods ([va_Mod_stackTaint; va_Mod_stack]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"file_name": "obj/Vale.PPC64LE.InsStack.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 22,
"end_line": 105,
"start_col": 0,
"start_line": 97
} | module Vale.PPC64LE.InsStack
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
open Vale.PPC64LE.State
open Vale.PPC64LE.StateLemmas
open Vale.PPC64LE.Decls
open Vale.PPC64LE.InsBasic
open Vale.PPC64LE.InsVector
open Vale.PPC64LE.Stack_Sems
module S = Vale.PPC64LE.Semantics_s
module P = Vale.PPC64LE.Print_s
friend Vale.PPC64LE.Decls
friend Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Stack_Sems
#reset-options "--initial_fuel 2 --max_fuel 4 --max_ifuel 2 --z3rlimit 200"
//-- Alloc_stack
[@ "opaque_to_smt"]
let va_code_Alloc_stack n =
(Ins (S.Alloc n))
[@ "opaque_to_smt"]
let va_codegen_success_Alloc_stack n =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Alloc_stack va_b0 va_s0 n =
va_reveal_opaque (`%va_code_Alloc_stack) (va_code_Alloc_stack n);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Alloc n)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Alloc n)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Alloc_stack n va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Alloc_stack (va_code_Alloc_stack n) va_s0 n in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_reg 1 va_sM (va_update_ok va_sM va_s0)));
va_lemma_norm_mods ([va_Mod_reg 1]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Dealloc_stack
[@ "opaque_to_smt"]
let va_code_Dealloc_stack n =
(Ins (S.Dealloc n))
[@ "opaque_to_smt"]
let va_codegen_success_Dealloc_stack n =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Dealloc_stack va_b0 va_s0 n =
va_reveal_opaque (`%va_code_Dealloc_stack) (va_code_Dealloc_stack n);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Dealloc n)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Dealloc n)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Dealloc_stack n va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Dealloc_stack (va_code_Dealloc_stack n) va_s0 n in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_stack va_sM (va_update_reg 1 va_sM (va_update_ok va_sM
va_s0))));
va_lemma_norm_mods ([va_Mod_stack; va_Mod_reg 1]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Store_stack128
[@ "opaque_to_smt"]
let va_code_Store_stack128 src offset =
(Ins (S.StoreStack128 src Secret offset))
[@ "opaque_to_smt"]
let va_codegen_success_Store_stack128 src offset =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Store_stack128 va_b0 va_s0 src offset =
va_reveal_opaque (`%va_code_Store_stack128) (va_code_Store_stack128 src offset);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.StoreStack128 src Secret offset)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.StoreStack128 src Secret offset)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "/",
"dependencies": [
"Vale.PPC64LE.StateLemmas.fsti.checked",
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_Sems.fst.checked",
"Vale.PPC64LE.Stack_Sems.fst.checked",
"Vale.PPC64LE.Stack_i.fst.checked",
"Vale.PPC64LE.Stack_i.fst.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Print_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.checked",
"Vale.PPC64LE.InsVector.fsti.checked",
"Vale.PPC64LE.InsBasic.fsti.checked",
"Vale.PPC64LE.Decls.fst.checked",
"Vale.PPC64LE.Decls.fst.checked",
"prims.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": true,
"source_file": "Vale.PPC64LE.InsStack.fst"
} | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Print_s",
"short_module": "P"
},
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Stack_Sems",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.InsVector",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.InsBasic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.StateLemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Stack_Sems",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.InsVector",
"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.Stack_i",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"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.Seq_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Def.Words_s",
"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": 200,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
src: Vale.PPC64LE.Decls.va_operand_vec_opr ->
offset: 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_vec_opr",
"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_stackTaint",
"Vale.PPC64LE.QuickCode.va_Mod_stack",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_stackTaint",
"Vale.PPC64LE.Decls.va_update_stack",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsStack.va_lemma_Store_stack128",
"Vale.PPC64LE.InsStack.va_code_Store_stack128"
] | [] | false | false | false | false | false | let va_wpProof_Store_stack128 src offset va_s0 va_k =
| let va_sM, va_f0 = va_lemma_Store_stack128 (va_code_Store_stack128 src offset) va_s0 src offset in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM
(va_update_stackTaint va_sM (va_update_stack va_sM (va_update_ok va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_stackTaint; va_Mod_stack]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | false |
CQueue.LList.fst | CQueue.LList.cllist_tail | val cllist_tail (#a: Type0) (c: cllist_lvalue a) : Pure (ref (ref (ccell_ptrvalue a)))
(requires True)
(ensures (fun v -> ~ (is_null v))) | val cllist_tail (#a: Type0) (c: cllist_lvalue a) : Pure (ref (ref (ccell_ptrvalue a)))
(requires True)
(ensures (fun v -> ~ (is_null v))) | let cllist_tail #a c =
c.tail | {
"file_name": "share/steel/examples/steel/CQueue.LList.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 8,
"end_line": 18,
"start_col": 0,
"start_line": 17
} | module CQueue.LList
noeq
type cllist_ptrvalue (a: Type0) = {
head: ref (ccell_ptrvalue a);
tail: ref (ref (ccell_ptrvalue a));
all_or_none_null: squash (is_null head == is_null tail);
}
let cllist_ptrvalue_null a = {head = null; tail = null; all_or_none_null = ()}
let cllist_ptrvalue_is_null #a x = is_null x.head
let cllist_head #a c =
c.head | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": true,
"source_file": "CQueue.LList.fst"
} | [
{
"abbrev": false,
"full_module": "Steel.Reference",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.FractionalPermission",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Effect",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Effect.Atomic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "CQueue.Cell",
"short_module": null
},
{
"abbrev": false,
"full_module": "CQueue",
"short_module": null
},
{
"abbrev": false,
"full_module": "CQueue",
"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 | c: CQueue.LList.cllist_lvalue a
-> Prims.Pure (Steel.Reference.ref (Steel.Reference.ref (CQueue.Cell.ccell_ptrvalue a))) | Prims.Pure | [] | [] | [
"CQueue.LList.cllist_lvalue",
"CQueue.LList.__proj__Mkcllist_ptrvalue__item__tail",
"Steel.Reference.ref",
"CQueue.Cell.ccell_ptrvalue"
] | [] | false | false | false | false | false | let cllist_tail #a c =
| c.tail | false |
CQueue.LList.fst | CQueue.LList.cllist_head | val cllist_head (#a: Type0) (c: cllist_lvalue a) : Pure (ref (ccell_ptrvalue a))
(requires True)
(ensures (fun v -> ~ (is_null v))) | val cllist_head (#a: Type0) (c: cllist_lvalue a) : Pure (ref (ccell_ptrvalue a))
(requires True)
(ensures (fun v -> ~ (is_null v))) | let cllist_head #a c =
c.head | {
"file_name": "share/steel/examples/steel/CQueue.LList.fst",
"git_rev": "f984200f79bdc452374ae994a5ca837496476c41",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | {
"end_col": 8,
"end_line": 15,
"start_col": 0,
"start_line": 14
} | module CQueue.LList
noeq
type cllist_ptrvalue (a: Type0) = {
head: ref (ccell_ptrvalue a);
tail: ref (ref (ccell_ptrvalue a));
all_or_none_null: squash (is_null head == is_null tail);
}
let cllist_ptrvalue_null a = {head = null; tail = null; all_or_none_null = ()}
let cllist_ptrvalue_is_null #a x = is_null x.head | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": true,
"source_file": "CQueue.LList.fst"
} | [
{
"abbrev": false,
"full_module": "Steel.Reference",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.FractionalPermission",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Effect",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Effect.Atomic",
"short_module": null
},
{
"abbrev": false,
"full_module": "Steel.Memory",
"short_module": null
},
{
"abbrev": false,
"full_module": "CQueue.Cell",
"short_module": null
},
{
"abbrev": false,
"full_module": "CQueue",
"short_module": null
},
{
"abbrev": false,
"full_module": "CQueue",
"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 | c: CQueue.LList.cllist_lvalue a -> Prims.Pure (Steel.Reference.ref (CQueue.Cell.ccell_ptrvalue a)) | Prims.Pure | [] | [] | [
"CQueue.LList.cllist_lvalue",
"CQueue.LList.__proj__Mkcllist_ptrvalue__item__head",
"Steel.Reference.ref",
"CQueue.Cell.ccell_ptrvalue"
] | [] | false | false | false | false | false | let cllist_head #a c =
| c.head | false |
FStar.Tactics.V2.Derived.fst | FStar.Tactics.V2.Derived.binding_to_string | val binding_to_string (b: binding) : Tac string | val binding_to_string (b: binding) : Tac string | let binding_to_string (b : binding) : Tac string =
unseal b.ppname | {
"file_name": "ulib/FStar.Tactics.V2.Derived.fst",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 17,
"end_line": 49,
"start_col": 0,
"start_line": 48
} | (*
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.
*)
module FStar.Tactics.V2.Derived
open FStar.Reflection.V2
open FStar.Reflection.V2.Formula
open FStar.Tactics.Effect
open FStar.Stubs.Tactics.Types
open FStar.Stubs.Tactics.Result
open FStar.Stubs.Tactics.V2.Builtins
open FStar.Tactics.Util
open FStar.Tactics.V2.SyntaxHelpers
open FStar.VConfig
open FStar.Tactics.NamedView
open FStar.Tactics.V2.SyntaxCoercions
module L = FStar.List.Tot.Base
module V = FStar.Tactics.Visit
private let (@) = L.op_At
let name_of_bv (bv : bv) : Tac string =
unseal ((inspect_bv bv).ppname)
let bv_to_string (bv : bv) : Tac string =
(* Could also print type...? *)
name_of_bv bv
let name_of_binder (b : binder) : Tac string =
unseal b.ppname
let binder_to_string (b : binder) : Tac string =
// TODO: print aqual, attributes..? or no?
name_of_binder b ^ "@@" ^ string_of_int b.uniq ^ "::(" ^ term_to_string b.sort ^ ")" | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.VConfig.fsti.checked",
"FStar.Tactics.Visit.fst.checked",
"FStar.Tactics.V2.SyntaxHelpers.fst.checked",
"FStar.Tactics.V2.SyntaxCoercions.fst.checked",
"FStar.Tactics.Util.fst.checked",
"FStar.Tactics.NamedView.fsti.checked",
"FStar.Tactics.Effect.fsti.checked",
"FStar.Stubs.Tactics.V2.Builtins.fsti.checked",
"FStar.Stubs.Tactics.Types.fsti.checked",
"FStar.Stubs.Tactics.Result.fsti.checked",
"FStar.Squash.fsti.checked",
"FStar.Reflection.V2.Formula.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Range.fsti.checked",
"FStar.PropositionalExtensionality.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.Base.fst.checked"
],
"interface_file": false,
"source_file": "FStar.Tactics.V2.Derived.fst"
} | [
{
"abbrev": true,
"full_module": "FStar.Tactics.Visit",
"short_module": "V"
},
{
"abbrev": true,
"full_module": "FStar.List.Tot.Base",
"short_module": "L"
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2.SyntaxCoercions",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.NamedView",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.VConfig",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2.SyntaxHelpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.Util",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Stubs.Tactics.V2.Builtins",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Stubs.Tactics.Result",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Stubs.Tactics.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.Effect",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.V2.Formula",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2",
"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 | b: FStar.Tactics.NamedView.binding -> FStar.Tactics.Effect.Tac Prims.string | FStar.Tactics.Effect.Tac | [] | [] | [
"FStar.Tactics.NamedView.binding",
"FStar.Tactics.Unseal.unseal",
"Prims.string",
"FStar.Stubs.Reflection.V2.Data.__proj__Mkbinding__item__ppname"
] | [] | false | true | false | false | false | let binding_to_string (b: binding) : Tac string =
| unseal b.ppname | false |
Hacl.Spec.Curve25519.AddAndDouble.fst | Hacl.Spec.Curve25519.AddAndDouble.montgomery_ladder1_0 | val montgomery_ladder1_0 : k: Spec.Curve25519.scalar ->
q: Spec.Curve25519.proj_point ->
nq: Spec.Curve25519.proj_point ->
nqp1: Spec.Curve25519.proj_point
-> Spec.Curve25519.proj_point | let montgomery_ladder1_0 (k:scalar) (q:proj_point) (nq:proj_point) (nqp1:proj_point) =
// bit 255 is 0 and bit 254 is 1
let nq,nqp1 = cswap2 (u64 1) nq nqp1 in
let nq,nqp1 = add_and_double q nq nqp1 in
let swap = u64 1 in
let nq,nqp1,swap = Lib.LoopCombinators.repeati 251 (ladder_step k q) (nq, nqp1, swap) in
let nq,nqp1 = cswap2 swap nq nqp1 in
nq | {
"file_name": "code/curve25519/Hacl.Spec.Curve25519.AddAndDouble.fst",
"git_rev": "eb1badfa34c70b0bbe0fe24fe0f49fb1295c7872",
"git_url": "https://github.com/project-everest/hacl-star.git",
"project_name": "hacl-star"
} | {
"end_col": 4,
"end_line": 55,
"start_col": 0,
"start_line": 48
} | module Hacl.Spec.Curve25519.AddAndDouble
open FStar.Mul
open Lib.IntTypes
open Spec.Curve25519
let add_and_double1_0 a b nqp1 =
let x_3, z_3 = nqp1 in
let c = x_3 +% z_3 in
let d = x_3 -% z_3 in
let da = d *% a in
let cb = c *% b in
let x_3 = da +% cb in
let z_3 = da -% cb in
(x_3, z_3)
let add_and_double1_1 a b nqp1 =
let x_3, z_3 = nqp1 in
let aa = a *% a in
let bb = b *% b in
let x_3 = x_3 *% x_3 in
let z_3 = z_3 *% z_3 in
let e = aa -% bb in
let e121665 = e *% 121665 in
let aa_e121665 = e121665 +% aa in
let x_2 = aa *% bb in
let z_2 = e *% aa_e121665 in
(x_2, z_2), (x_3, z_3)
let add_and_double1 q nq nqp1 =
let x_1, z_1 = q in
let x_2, z_2 = nq in
let a = x_2 +% z_2 in
let b = x_2 -% z_2 in
let nqp1 = add_and_double1_0 a b nqp1 in
let (x_2, z_2), (x_3, z_3) = add_and_double1_1 a b nqp1 in
let z_3 = z_3 *% x_1 in
(x_2, z_2), (x_3, z_3)
val lemma_add_and_double: q:proj_point -> nq:proj_point -> nqp1:proj_point ->
Lemma (add_and_double1 q nq nqp1 == add_and_double q nq nqp1)
let lemma_add_and_double q nq nqp1 = () | {
"checked_file": "/",
"dependencies": [
"Spec.Curve25519.fst.checked",
"prims.fst.checked",
"Lib.LoopCombinators.fsti.checked",
"Lib.IntTypes.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked"
],
"interface_file": false,
"source_file": "Hacl.Spec.Curve25519.AddAndDouble.fst"
} | [
{
"abbrev": false,
"full_module": "Spec.Curve25519",
"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": "Hacl.Spec.Curve25519",
"short_module": null
},
{
"abbrev": false,
"full_module": "Hacl.Spec.Curve25519",
"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": false,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | false |
k: Spec.Curve25519.scalar ->
q: Spec.Curve25519.proj_point ->
nq: Spec.Curve25519.proj_point ->
nqp1: Spec.Curve25519.proj_point
-> Spec.Curve25519.proj_point | Prims.Tot | [
"total"
] | [] | [
"Spec.Curve25519.scalar",
"Spec.Curve25519.proj_point",
"FStar.Pervasives.Native.tuple2",
"Spec.Curve25519.elem",
"Lib.IntTypes.uint64",
"Spec.Curve25519.cswap2",
"FStar.Pervasives.Native.tuple3",
"Lib.IntTypes.int_t",
"Lib.IntTypes.U64",
"Lib.IntTypes.SEC",
"Lib.LoopCombinators.repeati",
"Spec.Curve25519.ladder_step",
"FStar.Pervasives.Native.Mktuple3",
"Prims.eq2",
"Prims.int",
"Lib.IntTypes.range",
"Lib.IntTypes.v",
"Lib.IntTypes.u64",
"Spec.Curve25519.add_and_double"
] | [] | false | false | false | true | false | let montgomery_ladder1_0 (k: scalar) (q nq nqp1: proj_point) =
| let nq, nqp1 = cswap2 (u64 1) nq nqp1 in
let nq, nqp1 = add_and_double q nq nqp1 in
let swap = u64 1 in
let nq, nqp1, swap = Lib.LoopCombinators.repeati 251 (ladder_step k q) (nq, nqp1, swap) in
let nq, nqp1 = cswap2 swap nq nqp1 in
nq | false |
|
FStar.Tactics.V2.Derived.fst | FStar.Tactics.V2.Derived.type_of_binding | val type_of_binding (x: binding) : Tot typ | val type_of_binding (x: binding) : Tot typ | let type_of_binding (x : binding) : Tot typ =
x.sort | {
"file_name": "ulib/FStar.Tactics.V2.Derived.fst",
"git_rev": "10183ea187da8e8c426b799df6c825e24c0767d3",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | {
"end_col": 8,
"end_line": 55,
"start_col": 0,
"start_line": 54
} | (*
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.
*)
module FStar.Tactics.V2.Derived
open FStar.Reflection.V2
open FStar.Reflection.V2.Formula
open FStar.Tactics.Effect
open FStar.Stubs.Tactics.Types
open FStar.Stubs.Tactics.Result
open FStar.Stubs.Tactics.V2.Builtins
open FStar.Tactics.Util
open FStar.Tactics.V2.SyntaxHelpers
open FStar.VConfig
open FStar.Tactics.NamedView
open FStar.Tactics.V2.SyntaxCoercions
module L = FStar.List.Tot.Base
module V = FStar.Tactics.Visit
private let (@) = L.op_At
let name_of_bv (bv : bv) : Tac string =
unseal ((inspect_bv bv).ppname)
let bv_to_string (bv : bv) : Tac string =
(* Could also print type...? *)
name_of_bv bv
let name_of_binder (b : binder) : Tac string =
unseal b.ppname
let binder_to_string (b : binder) : Tac string =
// TODO: print aqual, attributes..? or no?
name_of_binder b ^ "@@" ^ string_of_int b.uniq ^ "::(" ^ term_to_string b.sort ^ ")"
let binding_to_string (b : binding) : Tac string =
unseal b.ppname
let type_of_var (x : namedv) : Tac typ =
unseal ((inspect_namedv x).sort) | {
"checked_file": "/",
"dependencies": [
"prims.fst.checked",
"FStar.VConfig.fsti.checked",
"FStar.Tactics.Visit.fst.checked",
"FStar.Tactics.V2.SyntaxHelpers.fst.checked",
"FStar.Tactics.V2.SyntaxCoercions.fst.checked",
"FStar.Tactics.Util.fst.checked",
"FStar.Tactics.NamedView.fsti.checked",
"FStar.Tactics.Effect.fsti.checked",
"FStar.Stubs.Tactics.V2.Builtins.fsti.checked",
"FStar.Stubs.Tactics.Types.fsti.checked",
"FStar.Stubs.Tactics.Result.fsti.checked",
"FStar.Squash.fsti.checked",
"FStar.Reflection.V2.Formula.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Range.fsti.checked",
"FStar.PropositionalExtensionality.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.Base.fst.checked"
],
"interface_file": false,
"source_file": "FStar.Tactics.V2.Derived.fst"
} | [
{
"abbrev": true,
"full_module": "FStar.Tactics.Visit",
"short_module": "V"
},
{
"abbrev": true,
"full_module": "FStar.List.Tot.Base",
"short_module": "L"
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2.SyntaxCoercions",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.NamedView",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.VConfig",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2.SyntaxHelpers",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.Util",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Stubs.Tactics.V2.Builtins",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Stubs.Tactics.Result",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Stubs.Tactics.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.Effect",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.V2.Formula",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Tactics.V2",
"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 | x: FStar.Tactics.NamedView.binding -> FStar.Stubs.Reflection.Types.typ | Prims.Tot | [
"total"
] | [] | [
"FStar.Tactics.NamedView.binding",
"FStar.Stubs.Reflection.V2.Data.__proj__Mkbinding__item__sort",
"FStar.Stubs.Reflection.Types.typ"
] | [] | false | false | false | true | false | let type_of_binding (x: binding) : Tot typ =
| x.sort | false |
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