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dict |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Prims.Tot | val va_codegen_success_MulLow64 : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ()) | val va_codegen_success_MulLow64 : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool
let va_codegen_success_MulLow64 dst src1 src2 = | false | null | false | (va_ttrue ()) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_ttrue",
"Vale.PPC64LE.Decls.va_pbool"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_codegen_success_MulLow64 : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool | [] | Vale.PPC64LE.InsBasic.va_codegen_success_MulLow64 | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Vale.PPC64LE.Decls.va_pbool | {
"end_col": 15,
"end_line": 457,
"start_col": 2,
"start_line": 457
} |
Prims.Tot | val va_codegen_success_Sr64 : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_codegen_success_Sr64 dst src1 src2 =
(va_ttrue ()) | val va_codegen_success_Sr64 : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool
let va_codegen_success_Sr64 dst src1 src2 = | false | null | false | (va_ttrue ()) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_ttrue",
"Vale.PPC64LE.Decls.va_pbool"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Xor
[@ "opaque_to_smt"]
let va_code_Xor dst src1 src2 =
(Ins (S.Xor dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Xor dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Xor va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Xor) (va_code_Xor dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Xor dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Xor dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Xor dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Xor (va_code_Xor dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- And
[@ "opaque_to_smt"]
let va_code_And dst src1 src2 =
(Ins (S.And dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_And dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_And va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_And) (va_code_And dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.And dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.And dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_And dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_And (va_code_And dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sr64Imm
[@ "opaque_to_smt"]
let va_code_Sr64Imm dst src1 src2 =
(Ins (S.Sr64Imm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sr64Imm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sr64Imm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sr64Imm) (va_code_Sr64Imm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sr64Imm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sr64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sr64Imm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sr64Imm (va_code_Sr64Imm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sl64Imm
[@ "opaque_to_smt"]
let va_code_Sl64Imm dst src1 src2 =
(Ins (S.Sl64Imm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sl64Imm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sl64Imm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sl64Imm) (va_code_Sl64Imm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sl64Imm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sl64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sl64Imm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sl64Imm (va_code_Sl64Imm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sr64
[@ "opaque_to_smt"]
let va_code_Sr64 dst src1 src2 =
(Ins (S.Sr64 dst src1 src2))
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_codegen_success_Sr64 : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool | [] | Vale.PPC64LE.InsBasic.va_codegen_success_Sr64 | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Vale.PPC64LE.Decls.va_pbool | {
"end_col": 15,
"end_line": 661,
"start_col": 2,
"start_line": 661
} |
Prims.Tot | val va_codegen_success_And : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_codegen_success_And dst src1 src2 =
(va_ttrue ()) | val va_codegen_success_And : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool
let va_codegen_success_And dst src1 src2 = | false | null | false | (va_ttrue ()) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_ttrue",
"Vale.PPC64LE.Decls.va_pbool"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Xor
[@ "opaque_to_smt"]
let va_code_Xor dst src1 src2 =
(Ins (S.Xor dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Xor dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Xor va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Xor) (va_code_Xor dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Xor dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Xor dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Xor dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Xor (va_code_Xor dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- And
[@ "opaque_to_smt"]
let va_code_And dst src1 src2 =
(Ins (S.And dst src1 src2))
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_codegen_success_And : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool | [] | Vale.PPC64LE.InsBasic.va_codegen_success_And | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Vale.PPC64LE.Decls.va_pbool | {
"end_col": 15,
"end_line": 574,
"start_col": 2,
"start_line": 574
} |
Prims.Tot | val va_code_MulLow64Wrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_code | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2)) | val va_code_MulLow64Wrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_code
let va_code_MulLow64Wrap dst src1 src2 = | false | null | false | (Ins (S.MulLow64 dst src1 src2)) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Semantics_s.MulLow64",
"Vale.PPC64LE.Decls.va_code"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_code_MulLow64Wrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_code | [] | Vale.PPC64LE.InsBasic.va_code_MulLow64Wrap | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Vale.PPC64LE.Decls.va_code | {
"end_col": 34,
"end_line": 482,
"start_col": 2,
"start_line": 482
} |
Prims.Tot | val va_codegen_success_Sl64Imm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:bits64
-> Tot va_pbool | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_codegen_success_Sl64Imm dst src1 src2 =
(va_ttrue ()) | val va_codegen_success_Sl64Imm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:bits64
-> Tot va_pbool
let va_codegen_success_Sl64Imm dst src1 src2 = | false | null | false | (va_ttrue ()) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.bits64",
"Vale.PPC64LE.Decls.va_ttrue",
"Vale.PPC64LE.Decls.va_pbool"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Xor
[@ "opaque_to_smt"]
let va_code_Xor dst src1 src2 =
(Ins (S.Xor dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Xor dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Xor va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Xor) (va_code_Xor dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Xor dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Xor dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Xor dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Xor (va_code_Xor dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- And
[@ "opaque_to_smt"]
let va_code_And dst src1 src2 =
(Ins (S.And dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_And dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_And va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_And) (va_code_And dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.And dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.And dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_And dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_And (va_code_And dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sr64Imm
[@ "opaque_to_smt"]
let va_code_Sr64Imm dst src1 src2 =
(Ins (S.Sr64Imm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sr64Imm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sr64Imm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sr64Imm) (va_code_Sr64Imm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sr64Imm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sr64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sr64Imm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sr64Imm (va_code_Sr64Imm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sl64Imm
[@ "opaque_to_smt"]
let va_code_Sl64Imm dst src1 src2 =
(Ins (S.Sl64Imm dst src1 src2))
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_codegen_success_Sl64Imm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:bits64
-> Tot va_pbool | [] | Vale.PPC64LE.InsBasic.va_codegen_success_Sl64Imm | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Machine_s.bits64
-> Vale.PPC64LE.Decls.va_pbool | {
"end_col": 15,
"end_line": 632,
"start_col": 2,
"start_line": 632
} |
Prims.Tot | val va_code_LoadImm64 : dst:va_operand_reg_opr -> src:simm16 -> Tot va_code | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src)) | val va_code_LoadImm64 : dst:va_operand_reg_opr -> src:simm16 -> Tot va_code
let va_code_LoadImm64 dst src = | false | null | false | (Ins (S.LoadImm64 dst src)) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.simm16",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Semantics_s.LoadImm64",
"Vale.PPC64LE.Decls.va_code"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_code_LoadImm64 : dst:va_operand_reg_opr -> src:simm16 -> Tot va_code | [] | Vale.PPC64LE.InsBasic.va_code_LoadImm64 | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} | dst: Vale.PPC64LE.Decls.va_operand_reg_opr -> src: Vale.PPC64LE.Machine_s.simm16
-> Vale.PPC64LE.Decls.va_code | {
"end_col": 29,
"end_line": 42,
"start_col": 2,
"start_line": 42
} |
Prims.Tot | val va_codegen_success_LoadImmShl64 : dst:va_operand_reg_opr -> src:simm16 -> Tot va_pbool | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ()) | val va_codegen_success_LoadImmShl64 : dst:va_operand_reg_opr -> src:simm16 -> Tot va_pbool
let va_codegen_success_LoadImmShl64 dst src = | false | null | false | (va_ttrue ()) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.simm16",
"Vale.PPC64LE.Decls.va_ttrue",
"Vale.PPC64LE.Decls.va_pbool"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_codegen_success_LoadImmShl64 : dst:va_operand_reg_opr -> src:simm16 -> Tot va_pbool | [] | Vale.PPC64LE.InsBasic.va_codegen_success_LoadImmShl64 | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} | dst: Vale.PPC64LE.Decls.va_operand_reg_opr -> src: Vale.PPC64LE.Machine_s.simm16
-> Vale.PPC64LE.Decls.va_pbool | {
"end_col": 15,
"end_line": 75,
"start_col": 2,
"start_line": 75
} |
Prims.Tot | val va_code_LoadImmShl64 : dst:va_operand_reg_opr -> src:simm16 -> Tot va_code | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src)) | val va_code_LoadImmShl64 : dst:va_operand_reg_opr -> src:simm16 -> Tot va_code
let va_code_LoadImmShl64 dst src = | false | null | false | (Ins (S.LoadImmShl64 dst src)) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.simm16",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Semantics_s.LoadImmShl64",
"Vale.PPC64LE.Decls.va_code"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_code_LoadImmShl64 : dst:va_operand_reg_opr -> src:simm16 -> Tot va_code | [] | Vale.PPC64LE.InsBasic.va_code_LoadImmShl64 | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} | dst: Vale.PPC64LE.Decls.va_operand_reg_opr -> src: Vale.PPC64LE.Machine_s.simm16
-> Vale.PPC64LE.Decls.va_code | {
"end_col": 32,
"end_line": 71,
"start_col": 2,
"start_line": 71
} |
Prims.Tot | val va_codegen_success_Add : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_codegen_success_Add dst src1 src2 =
(va_ttrue ()) | val va_codegen_success_Add : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool
let va_codegen_success_Add dst src1 src2 = | false | null | false | (va_ttrue ()) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_ttrue",
"Vale.PPC64LE.Decls.va_pbool"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_codegen_success_Add : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool | [] | Vale.PPC64LE.InsBasic.va_codegen_success_Add | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Vale.PPC64LE.Decls.va_pbool | {
"end_col": 15,
"end_line": 133,
"start_col": 2,
"start_line": 133
} |
Prims.Tot | val va_code_AddLa : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:simm16 -> Tot va_code | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2)) | val va_code_AddLa : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:simm16 -> Tot va_code
let va_code_AddLa dst src1 src2 = | false | null | false | (Ins (S.AddLa dst src1 src2)) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.simm16",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Semantics_s.AddLa",
"Vale.PPC64LE.Decls.va_code"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_code_AddLa : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:simm16 -> Tot va_code | [] | Vale.PPC64LE.InsBasic.va_code_AddLa | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Machine_s.simm16
-> Vale.PPC64LE.Decls.va_code | {
"end_col": 31,
"end_line": 100,
"start_col": 2,
"start_line": 100
} |
Prims.Tot | val va_codegen_success_AddImm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:simm16 ->
Tot va_pbool | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ()) | val va_codegen_success_AddImm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:simm16 ->
Tot va_pbool
let va_codegen_success_AddImm dst src1 src2 = | false | null | false | (va_ttrue ()) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.simm16",
"Vale.PPC64LE.Decls.va_ttrue",
"Vale.PPC64LE.Decls.va_pbool"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_codegen_success_AddImm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:simm16 ->
Tot va_pbool | [] | Vale.PPC64LE.InsBasic.va_codegen_success_AddImm | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Machine_s.simm16
-> Vale.PPC64LE.Decls.va_pbool | {
"end_col": 15,
"end_line": 191,
"start_col": 2,
"start_line": 191
} |
Prims.Tot | val va_code_AddWrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Tot va_code | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2)) | val va_code_AddWrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Tot va_code
let va_code_AddWrap dst src1 src2 = | false | null | false | (Ins (S.Add dst src1 src2)) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Semantics_s.Add",
"Vale.PPC64LE.Decls.va_code"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_code_AddWrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Tot va_code | [] | Vale.PPC64LE.InsBasic.va_code_AddWrap | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Vale.PPC64LE.Decls.va_code | {
"end_col": 29,
"end_line": 158,
"start_col": 2,
"start_line": 158
} |
Prims.Tot | val va_codegen_success_AddExtendedOV : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ()) | val va_codegen_success_AddExtendedOV : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool
let va_codegen_success_AddExtendedOV dst src1 src2 = | false | null | false | (va_ttrue ()) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_ttrue",
"Vale.PPC64LE.Decls.va_pbool"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_codegen_success_AddExtendedOV : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool | [] | Vale.PPC64LE.InsBasic.va_codegen_success_AddExtendedOV | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Vale.PPC64LE.Decls.va_pbool | {
"end_col": 15,
"end_line": 310,
"start_col": 2,
"start_line": 310
} |
Prims.Tot | val va_code_Sub : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr ->
Tot va_code | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2)) | val va_code_Sub : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr ->
Tot va_code
let va_code_Sub dst src1 src2 = | false | null | false | (Ins (S.Sub dst src1 src2)) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Semantics_s.Sub",
"Vale.PPC64LE.Decls.va_code"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_code_Sub : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr ->
Tot va_code | [] | Vale.PPC64LE.InsBasic.va_code_Sub | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Vale.PPC64LE.Decls.va_code | {
"end_col": 29,
"end_line": 337,
"start_col": 2,
"start_line": 337
} |
Prims.Tot | val va_codegen_success_AddExtended : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ()) | val va_codegen_success_AddExtended : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool
let va_codegen_success_AddExtended dst src1 src2 = | false | null | false | (va_ttrue ()) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_ttrue",
"Vale.PPC64LE.Decls.va_pbool"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_codegen_success_AddExtended : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool | [] | Vale.PPC64LE.InsBasic.va_codegen_success_AddExtended | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Vale.PPC64LE.Decls.va_pbool | {
"end_col": 15,
"end_line": 279,
"start_col": 2,
"start_line": 279
} |
Prims.Tot | val va_code_AddExtended : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_code | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2)) | val va_code_AddExtended : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_code
let va_code_AddExtended dst src1 src2 = | false | null | false | (Ins (S.AddExtended dst src1 src2)) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Semantics_s.AddExtended",
"Vale.PPC64LE.Decls.va_code"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_code_AddExtended : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_code | [] | Vale.PPC64LE.InsBasic.va_code_AddExtended | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Vale.PPC64LE.Decls.va_code | {
"end_col": 37,
"end_line": 275,
"start_col": 2,
"start_line": 275
} |
Prims.Ghost | val va_wpProof_Move : dst:va_operand_reg_opr -> src:va_operand_reg_opr -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Move dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Move dst src) ([va_mod_reg_opr dst])
va_s0 va_k ((va_sM, va_f0, va_g)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | val va_wpProof_Move : dst:va_operand_reg_opr -> src:va_operand_reg_opr -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Move dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Move dst src) ([va_mod_reg_opr dst])
va_s0 va_k ((va_sM, va_f0, va_g))))
let va_wpProof_Move dst src va_s0 va_k = | false | null | false | let va_sM, va_f0 = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_state",
"Prims.unit",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.Mktuple3",
"Vale.PPC64LE.QuickCode.va_lemma_norm_mods",
"Prims.Cons",
"Vale.PPC64LE.QuickCode.mod_t",
"Vale.PPC64LE.QuickCode.va_mod_reg_opr",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_update_operand_reg_opr",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsBasic.va_lemma_Move",
"Vale.PPC64LE.InsBasic.va_code_Move"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM) | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_wpProof_Move : dst:va_operand_reg_opr -> src:va_operand_reg_opr -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Move dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Move dst src) ([va_mod_reg_opr dst])
va_s0 va_k ((va_sM, va_f0, va_g)))) | [] | Vale.PPC64LE.InsBasic.va_wpProof_Move | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src: Vale.PPC64LE.Decls.va_operand_reg_opr ->
va_s0: Vale.PPC64LE.Decls.va_state ->
va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0)
-> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit) | {
"end_col": 22,
"end_line": 35,
"start_col": 40,
"start_line": 29
} |
Prims.Ghost | val va_wpProof_Sub : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Sub dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Sub dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | val va_wpProof_Sub : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Sub dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Sub dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
let va_wpProof_Sub dst src1 src2 va_s0 va_k = | false | null | false | let va_sM, va_f0 = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_state",
"Prims.unit",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.Mktuple3",
"Vale.PPC64LE.QuickCode.va_lemma_norm_mods",
"Prims.Cons",
"Vale.PPC64LE.QuickCode.mod_t",
"Vale.PPC64LE.QuickCode.va_mod_reg_opr",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_update_operand_reg_opr",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsBasic.va_lemma_Sub",
"Vale.PPC64LE.InsBasic.va_code_Sub"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM) | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_wpProof_Sub : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Sub dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Sub dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [] | Vale.PPC64LE.InsBasic.va_wpProof_Sub | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr ->
va_s0: Vale.PPC64LE.Decls.va_state ->
va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0)
-> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit) | {
"end_col": 22,
"end_line": 359,
"start_col": 45,
"start_line": 353
} |
Prims.Ghost | val va_wpProof_AddLa : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:simm16 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_AddLa dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AddLa dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | val va_wpProof_AddLa : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:simm16 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_AddLa dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AddLa dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
let va_wpProof_AddLa dst src1 src2 va_s0 va_k = | false | null | false | let va_sM, va_f0 = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.simm16",
"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_opr",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_update_operand_reg_opr",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsBasic.va_lemma_AddLa",
"Vale.PPC64LE.InsBasic.va_code_AddLa"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM) | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_wpProof_AddLa : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:simm16 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_AddLa dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AddLa dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [] | Vale.PPC64LE.InsBasic.va_wpProof_AddLa | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Machine_s.simm16 ->
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) | {
"end_col": 22,
"end_line": 122,
"start_col": 47,
"start_line": 116
} |
Prims.Ghost | val va_wpProof_SubImmWrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:nsimm16 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_SubImmWrap dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_SubImmWrap dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | val va_wpProof_SubImmWrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:nsimm16 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_SubImmWrap dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_SubImmWrap dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k = | false | null | false | let va_sM, va_f0 = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.nsimm16",
"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_opr",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_update_operand_reg_opr",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsBasic.va_lemma_SubImmWrap",
"Vale.PPC64LE.InsBasic.va_code_SubImmWrap"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM) | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_wpProof_SubImmWrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:nsimm16 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_SubImmWrap dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_SubImmWrap dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [] | Vale.PPC64LE.InsBasic.va_wpProof_SubImmWrap | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Machine_s.nsimm16 ->
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) | {
"end_col": 22,
"end_line": 446,
"start_col": 52,
"start_line": 440
} |
Prims.Ghost | val va_wpProof_And : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_And dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_And dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_wpProof_And dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_And (va_code_And dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | val va_wpProof_And : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_And dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_And dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
let va_wpProof_And dst src1 src2 va_s0 va_k = | false | null | false | let va_sM, va_f0 = va_lemma_And (va_code_And dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_state",
"Prims.unit",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.Mktuple3",
"Vale.PPC64LE.QuickCode.va_lemma_norm_mods",
"Prims.Cons",
"Vale.PPC64LE.QuickCode.mod_t",
"Vale.PPC64LE.QuickCode.va_mod_reg_opr",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_update_operand_reg_opr",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsBasic.va_lemma_And",
"Vale.PPC64LE.InsBasic.va_code_And"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Xor
[@ "opaque_to_smt"]
let va_code_Xor dst src1 src2 =
(Ins (S.Xor dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Xor dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Xor va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Xor) (va_code_Xor dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Xor dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Xor dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Xor dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Xor (va_code_Xor dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- And
[@ "opaque_to_smt"]
let va_code_And dst src1 src2 =
(Ins (S.And dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_And dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_And va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_And) (va_code_And dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.And dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.And dst src1 src2)) va_s0 in
(va_sM, va_fM) | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_wpProof_And : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_And dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_And dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [] | Vale.PPC64LE.InsBasic.va_wpProof_And | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr ->
va_s0: Vale.PPC64LE.Decls.va_state ->
va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0)
-> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit) | {
"end_col": 22,
"end_line": 592,
"start_col": 45,
"start_line": 586
} |
Prims.Ghost | val va_lemma_AddLa : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:simm16
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_AddLa dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_get_ok va_s0 /\ (0 <= va_eval_reg_opr va_s0 src1 +
src2 /\ va_eval_reg_opr va_s0 src1 + src2 < pow2_64)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_eval_reg_opr va_s0 src1 + src2 /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM) | val va_lemma_AddLa : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:simm16
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_AddLa dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_get_ok va_s0 /\ (0 <= va_eval_reg_opr va_s0 src1 +
src2 /\ va_eval_reg_opr va_s0 src1 + src2 < pow2_64)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_eval_reg_opr va_s0 src1 + src2 /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))))
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 = | false | null | false | va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let va_old_s:va_state = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let va_sM, va_fM = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_code",
"Vale.PPC64LE.Decls.va_state",
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.simm16",
"Vale.PPC64LE.State.state",
"Vale.PPC64LE.Lemmas.fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Prims.nat",
"Vale.PPC64LE.Decls.va_eval_ins",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Semantics_s.ins",
"Vale.PPC64LE.Semantics_s.ocmp",
"Vale.PPC64LE.Semantics_s.AddLa",
"Prims.unit",
"Vale.PPC64LE.Decls.va_ins_lemma",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Decls.va_reveal_opaque",
"Vale.PPC64LE.InsBasic.va_code_AddLa"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"] | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_lemma_AddLa : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:simm16
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_AddLa dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_get_ok va_s0 /\ (0 <= va_eval_reg_opr va_s0 src1 +
src2 /\ va_eval_reg_opr va_s0 src1 + src2 < pow2_64)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_eval_reg_opr va_s0 src1 + src2 /\ va_state_eq va_sM
(va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)))) | [] | Vale.PPC64LE.InsBasic.va_lemma_AddLa | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
va_b0: Vale.PPC64LE.Decls.va_code ->
va_s0: Vale.PPC64LE.Decls.va_state ->
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Machine_s.simm16
-> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) | {
"end_col": 16,
"end_line": 112,
"start_col": 2,
"start_line": 108
} |
Prims.Ghost | val va_wpProof_AddImmWrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:simm16 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_AddImmWrap dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AddImmWrap dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | val va_wpProof_AddImmWrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:simm16 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_AddImmWrap dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AddImmWrap dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k = | false | null | false | let va_sM, va_f0 = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.simm16",
"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_opr",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_update_operand_reg_opr",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsBasic.va_lemma_AddImmWrap",
"Vale.PPC64LE.InsBasic.va_code_AddImmWrap"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM) | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_wpProof_AddImmWrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:simm16 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_AddImmWrap dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AddImmWrap dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [] | Vale.PPC64LE.InsBasic.va_wpProof_AddImmWrap | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Machine_s.simm16 ->
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) | {
"end_col": 22,
"end_line": 238,
"start_col": 52,
"start_line": 232
} |
Prims.Ghost | val va_wpProof_AddImm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:simm16 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_AddImm dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AddImm dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | val va_wpProof_AddImm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:simm16 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_AddImm dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AddImm dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
let va_wpProof_AddImm dst src1 src2 va_s0 va_k = | false | null | false | let va_sM, va_f0 = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.simm16",
"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_opr",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_update_operand_reg_opr",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsBasic.va_lemma_AddImm",
"Vale.PPC64LE.InsBasic.va_code_AddImm"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM) | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_wpProof_AddImm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:simm16 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_AddImm dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AddImm dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [] | Vale.PPC64LE.InsBasic.va_wpProof_AddImm | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Machine_s.simm16 ->
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) | {
"end_col": 22,
"end_line": 209,
"start_col": 48,
"start_line": 203
} |
Prims.Ghost | val va_wpProof_SubImm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:nsimm16 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_SubImm dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_SubImm dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | val va_wpProof_SubImm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:nsimm16 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_SubImm dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_SubImm dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
let va_wpProof_SubImm dst src1 src2 va_s0 va_k = | false | null | false | let va_sM, va_f0 = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.nsimm16",
"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_opr",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_update_operand_reg_opr",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsBasic.va_lemma_SubImm",
"Vale.PPC64LE.InsBasic.va_code_SubImm"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM) | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_wpProof_SubImm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:nsimm16 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_SubImm dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_SubImm dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [] | Vale.PPC64LE.InsBasic.va_wpProof_SubImm | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Machine_s.nsimm16 ->
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) | {
"end_col": 22,
"end_line": 417,
"start_col": 48,
"start_line": 411
} |
Prims.Ghost | val va_wpProof_AddExtended : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_AddExtended dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AddExtended dst src1 src2)
([va_Mod_xer; va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | val va_wpProof_AddExtended : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_AddExtended dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AddExtended dst src1 src2)
([va_Mod_xer; va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k = | false | null | false | let va_sM, va_f0 = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM
(va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_state",
"Prims.unit",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.Mktuple3",
"Vale.PPC64LE.QuickCode.va_lemma_norm_mods",
"Prims.Cons",
"Vale.PPC64LE.QuickCode.mod_t",
"Vale.PPC64LE.QuickCode.va_Mod_xer",
"Vale.PPC64LE.QuickCode.va_mod_reg_opr",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_xer",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_update_operand_reg_opr",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsBasic.va_lemma_AddExtended",
"Vale.PPC64LE.InsBasic.va_code_AddExtended"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM) | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_wpProof_AddExtended : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_AddExtended dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AddExtended dst src1 src2)
([va_Mod_xer; va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [] | Vale.PPC64LE.InsBasic.va_wpProof_AddExtended | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr ->
va_s0: Vale.PPC64LE.Decls.va_state ->
va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0)
-> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit) | {
"end_col": 22,
"end_line": 299,
"start_col": 53,
"start_line": 291
} |
Prims.Ghost | val va_lemma_AddWrap : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_AddWrap dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.add_wrap64 (va_eval_reg_opr va_s0 src1)
(va_eval_reg_opr va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM) | val va_lemma_AddWrap : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_AddWrap dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.add_wrap64 (va_eval_reg_opr va_s0 src1)
(va_eval_reg_opr va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0))))
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 = | false | null | false | va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let va_old_s:va_state = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let va_sM, va_fM = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_code",
"Vale.PPC64LE.Decls.va_state",
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.State.state",
"Vale.PPC64LE.Lemmas.fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Prims.nat",
"Vale.PPC64LE.Decls.va_eval_ins",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Semantics_s.ins",
"Vale.PPC64LE.Semantics_s.ocmp",
"Vale.PPC64LE.Semantics_s.Add",
"Prims.unit",
"Vale.PPC64LE.Decls.va_ins_lemma",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Decls.va_reveal_opaque",
"Vale.PPC64LE.InsBasic.va_code_AddWrap"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"] | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_lemma_AddWrap : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_AddWrap dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.add_wrap64 (va_eval_reg_opr va_s0 src1)
(va_eval_reg_opr va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0)))) | [] | Vale.PPC64LE.InsBasic.va_lemma_AddWrap | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
va_b0: Vale.PPC64LE.Decls.va_code ->
va_s0: Vale.PPC64LE.Decls.va_state ->
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) | {
"end_col": 16,
"end_line": 170,
"start_col": 2,
"start_line": 166
} |
Prims.Ghost | val va_lemma_AddExtended : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_AddExtended dst src1 src2) va_s0 /\ va_is_dst_reg_opr
dst va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.add_wrap64 (Vale.Arch.Types.add_wrap64
(va_eval_reg_opr va_s0 src1) (va_eval_reg_opr va_s0 src2)) (if Vale.PPC64LE.Decls.xer_ca
(va_get_xer va_s0) then 1 else 0) /\ Vale.PPC64LE.Decls.xer_ca (va_get_xer va_sM) ==
(va_eval_reg_opr va_s0 src1 + va_eval_reg_opr va_s0 src2 + (if Vale.PPC64LE.Decls.xer_ca
(va_get_xer va_s0) then 1 else 0) >= pow2_64) /\ va_state_eq va_sM (va_update_xer va_sM
(va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM) | val va_lemma_AddExtended : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_AddExtended dst src1 src2) va_s0 /\ va_is_dst_reg_opr
dst va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.add_wrap64 (Vale.Arch.Types.add_wrap64
(va_eval_reg_opr va_s0 src1) (va_eval_reg_opr va_s0 src2)) (if Vale.PPC64LE.Decls.xer_ca
(va_get_xer va_s0) then 1 else 0) /\ Vale.PPC64LE.Decls.xer_ca (va_get_xer va_sM) ==
(va_eval_reg_opr va_s0 src1 + va_eval_reg_opr va_s0 src2 + (if Vale.PPC64LE.Decls.xer_ca
(va_get_xer va_s0) then 1 else 0) >= pow2_64) /\ va_state_eq va_sM (va_update_xer va_sM
(va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)))))
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 = | false | null | false | va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let va_old_s:va_state = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let va_sM, va_fM = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_code",
"Vale.PPC64LE.Decls.va_state",
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.State.state",
"Vale.PPC64LE.Lemmas.fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Prims.nat",
"Vale.PPC64LE.Decls.va_eval_ins",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Semantics_s.ins",
"Vale.PPC64LE.Semantics_s.ocmp",
"Vale.PPC64LE.Semantics_s.AddExtended",
"Prims.unit",
"Vale.PPC64LE.Decls.va_ins_lemma",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Decls.va_reveal_opaque",
"Vale.PPC64LE.InsBasic.va_code_AddExtended"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"] | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_lemma_AddExtended : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_AddExtended dst src1 src2) va_s0 /\ va_is_dst_reg_opr
dst va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.add_wrap64 (Vale.Arch.Types.add_wrap64
(va_eval_reg_opr va_s0 src1) (va_eval_reg_opr va_s0 src2)) (if Vale.PPC64LE.Decls.xer_ca
(va_get_xer va_s0) then 1 else 0) /\ Vale.PPC64LE.Decls.xer_ca (va_get_xer va_sM) ==
(va_eval_reg_opr va_s0 src1 + va_eval_reg_opr va_s0 src2 + (if Vale.PPC64LE.Decls.xer_ca
(va_get_xer va_s0) then 1 else 0) >= pow2_64) /\ va_state_eq va_sM (va_update_xer va_sM
(va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))))) | [] | Vale.PPC64LE.InsBasic.va_lemma_AddExtended | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
va_b0: Vale.PPC64LE.Decls.va_code ->
va_s0: Vale.PPC64LE.Decls.va_state ->
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) | {
"end_col": 16,
"end_line": 287,
"start_col": 2,
"start_line": 283
} |
Prims.Ghost | val va_lemma_Sub : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Sub dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0 /\
va_eval_reg_opr va_s0 src1 - va_eval_reg_opr va_s0 src2 >= 0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_eval_reg_opr va_s0 src1 - va_eval_reg_opr va_s0 src2 /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM) | val va_lemma_Sub : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Sub dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0 /\
va_eval_reg_opr va_s0 src1 - va_eval_reg_opr va_s0 src2 >= 0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_eval_reg_opr va_s0 src1 - va_eval_reg_opr va_s0 src2 /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))))
let va_lemma_Sub va_b0 va_s0 dst src1 src2 = | false | null | false | va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let va_old_s:va_state = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let va_sM, va_fM = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_code",
"Vale.PPC64LE.Decls.va_state",
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.State.state",
"Vale.PPC64LE.Lemmas.fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Prims.nat",
"Vale.PPC64LE.Decls.va_eval_ins",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Semantics_s.ins",
"Vale.PPC64LE.Semantics_s.ocmp",
"Vale.PPC64LE.Semantics_s.Sub",
"Prims.unit",
"Vale.PPC64LE.Decls.va_ins_lemma",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Decls.va_reveal_opaque",
"Vale.PPC64LE.InsBasic.va_code_Sub"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"] | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_lemma_Sub : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Sub dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0 /\
va_eval_reg_opr va_s0 src1 - va_eval_reg_opr va_s0 src2 >= 0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_eval_reg_opr va_s0 src1 - va_eval_reg_opr va_s0 src2 /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)))) | [] | Vale.PPC64LE.InsBasic.va_lemma_Sub | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
va_b0: Vale.PPC64LE.Decls.va_code ->
va_s0: Vale.PPC64LE.Decls.va_state ->
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) | {
"end_col": 16,
"end_line": 349,
"start_col": 2,
"start_line": 345
} |
Prims.Ghost | val va_wpProof_Sr64Imm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:bits64 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Sr64Imm dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Sr64Imm dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_wpProof_Sr64Imm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sr64Imm (va_code_Sr64Imm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | val va_wpProof_Sr64Imm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:bits64 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Sr64Imm dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Sr64Imm dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
let va_wpProof_Sr64Imm dst src1 src2 va_s0 va_k = | false | null | false | let va_sM, va_f0 = va_lemma_Sr64Imm (va_code_Sr64Imm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.bits64",
"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_opr",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_update_operand_reg_opr",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsBasic.va_lemma_Sr64Imm",
"Vale.PPC64LE.InsBasic.va_code_Sr64Imm"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Xor
[@ "opaque_to_smt"]
let va_code_Xor dst src1 src2 =
(Ins (S.Xor dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Xor dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Xor va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Xor) (va_code_Xor dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Xor dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Xor dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Xor dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Xor (va_code_Xor dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- And
[@ "opaque_to_smt"]
let va_code_And dst src1 src2 =
(Ins (S.And dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_And dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_And va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_And) (va_code_And dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.And dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.And dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_And dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_And (va_code_And dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sr64Imm
[@ "opaque_to_smt"]
let va_code_Sr64Imm dst src1 src2 =
(Ins (S.Sr64Imm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sr64Imm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sr64Imm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sr64Imm) (va_code_Sr64Imm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sr64Imm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sr64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM) | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_wpProof_Sr64Imm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:bits64 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Sr64Imm dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Sr64Imm dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [] | Vale.PPC64LE.InsBasic.va_wpProof_Sr64Imm | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Machine_s.bits64 ->
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) | {
"end_col": 22,
"end_line": 621,
"start_col": 49,
"start_line": 615
} |
Prims.Ghost | val va_lemma_Add : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Add dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0 /\
va_eval_reg_opr va_s0 src1 + va_eval_reg_opr va_s0 src2 < pow2_64))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_eval_reg_opr va_s0 src1 + va_eval_reg_opr va_s0 src2 /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM) | val va_lemma_Add : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Add dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0 /\
va_eval_reg_opr va_s0 src1 + va_eval_reg_opr va_s0 src2 < pow2_64))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_eval_reg_opr va_s0 src1 + va_eval_reg_opr va_s0 src2 /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))))
let va_lemma_Add va_b0 va_s0 dst src1 src2 = | false | null | false | va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let va_old_s:va_state = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let va_sM, va_fM = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_code",
"Vale.PPC64LE.Decls.va_state",
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.State.state",
"Vale.PPC64LE.Lemmas.fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Prims.nat",
"Vale.PPC64LE.Decls.va_eval_ins",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Semantics_s.ins",
"Vale.PPC64LE.Semantics_s.ocmp",
"Vale.PPC64LE.Semantics_s.Add",
"Prims.unit",
"Vale.PPC64LE.Decls.va_ins_lemma",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Decls.va_reveal_opaque",
"Vale.PPC64LE.InsBasic.va_code_Add"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"] | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_lemma_Add : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Add dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0 /\
va_eval_reg_opr va_s0 src1 + va_eval_reg_opr va_s0 src2 < pow2_64))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_eval_reg_opr va_s0 src1 + va_eval_reg_opr va_s0 src2 /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)))) | [] | Vale.PPC64LE.InsBasic.va_lemma_Add | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
va_b0: Vale.PPC64LE.Decls.va_code ->
va_s0: Vale.PPC64LE.Decls.va_state ->
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) | {
"end_col": 16,
"end_line": 141,
"start_col": 2,
"start_line": 137
} |
Prims.Ghost | val va_lemma_AddExtendedOV : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_AddExtendedOV dst src1 src2) va_s0 /\
va_is_dst_reg_opr dst va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\
va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.add_wrap64 (Vale.Arch.Types.add_wrap64
(va_eval_reg_opr va_s0 src1) (va_eval_reg_opr va_s0 src2)) (if Vale.PPC64LE.Decls.xer_ov
(va_get_xer va_s0) then 1 else 0) /\ Vale.PPC64LE.Decls.xer_ov (va_get_xer va_sM) ==
(va_eval_reg_opr va_s0 src1 + va_eval_reg_opr va_s0 src2 + (if Vale.PPC64LE.Decls.xer_ov
(va_get_xer va_s0) then 1 else 0) >= pow2_64) /\ va_state_eq va_sM (va_update_xer va_sM
(va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM) | val va_lemma_AddExtendedOV : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_AddExtendedOV dst src1 src2) va_s0 /\
va_is_dst_reg_opr dst va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\
va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.add_wrap64 (Vale.Arch.Types.add_wrap64
(va_eval_reg_opr va_s0 src1) (va_eval_reg_opr va_s0 src2)) (if Vale.PPC64LE.Decls.xer_ov
(va_get_xer va_s0) then 1 else 0) /\ Vale.PPC64LE.Decls.xer_ov (va_get_xer va_sM) ==
(va_eval_reg_opr va_s0 src1 + va_eval_reg_opr va_s0 src2 + (if Vale.PPC64LE.Decls.xer_ov
(va_get_xer va_s0) then 1 else 0) >= pow2_64) /\ va_state_eq va_sM (va_update_xer va_sM
(va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)))))
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 = | false | null | false | va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let va_old_s:va_state = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let va_sM, va_fM = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_code",
"Vale.PPC64LE.Decls.va_state",
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.State.state",
"Vale.PPC64LE.Lemmas.fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Prims.nat",
"Vale.PPC64LE.Decls.va_eval_ins",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Semantics_s.ins",
"Vale.PPC64LE.Semantics_s.ocmp",
"Vale.PPC64LE.Semantics_s.AddExtendedOV",
"Prims.unit",
"Vale.PPC64LE.Decls.va_ins_lemma",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Decls.va_reveal_opaque",
"Vale.PPC64LE.InsBasic.va_code_AddExtendedOV"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"] | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_lemma_AddExtendedOV : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_AddExtendedOV dst src1 src2) va_s0 /\
va_is_dst_reg_opr dst va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\
va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.add_wrap64 (Vale.Arch.Types.add_wrap64
(va_eval_reg_opr va_s0 src1) (va_eval_reg_opr va_s0 src2)) (if Vale.PPC64LE.Decls.xer_ov
(va_get_xer va_s0) then 1 else 0) /\ Vale.PPC64LE.Decls.xer_ov (va_get_xer va_sM) ==
(va_eval_reg_opr va_s0 src1 + va_eval_reg_opr va_s0 src2 + (if Vale.PPC64LE.Decls.xer_ov
(va_get_xer va_s0) then 1 else 0) >= pow2_64) /\ va_state_eq va_sM (va_update_xer va_sM
(va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))))) | [] | Vale.PPC64LE.InsBasic.va_lemma_AddExtendedOV | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
va_b0: Vale.PPC64LE.Decls.va_code ->
va_s0: Vale.PPC64LE.Decls.va_state ->
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) | {
"end_col": 16,
"end_line": 318,
"start_col": 2,
"start_line": 314
} |
Prims.Ghost | val va_wpProof_MulLow64Wrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_MulLow64Wrap dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_MulLow64Wrap dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | val va_wpProof_MulLow64Wrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_MulLow64Wrap dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_MulLow64Wrap dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k = | false | null | false | let va_sM, va_f0 = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_state",
"Prims.unit",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.Mktuple3",
"Vale.PPC64LE.QuickCode.va_lemma_norm_mods",
"Prims.Cons",
"Vale.PPC64LE.QuickCode.mod_t",
"Vale.PPC64LE.QuickCode.va_mod_reg_opr",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_update_operand_reg_opr",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsBasic.va_lemma_MulLow64Wrap",
"Vale.PPC64LE.InsBasic.va_code_MulLow64Wrap"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM) | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_wpProof_MulLow64Wrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_MulLow64Wrap dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_MulLow64Wrap dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [] | Vale.PPC64LE.InsBasic.va_wpProof_MulLow64Wrap | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr ->
va_s0: Vale.PPC64LE.Decls.va_state ->
va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0)
-> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit) | {
"end_col": 22,
"end_line": 505,
"start_col": 54,
"start_line": 498
} |
Prims.Ghost | val va_wpProof_Xor : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Xor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Xor dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_wpProof_Xor dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Xor (va_code_Xor dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | val va_wpProof_Xor : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Xor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Xor dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
let va_wpProof_Xor dst src1 src2 va_s0 va_k = | false | null | false | let va_sM, va_f0 = va_lemma_Xor (va_code_Xor dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_state",
"Prims.unit",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.Mktuple3",
"Vale.PPC64LE.QuickCode.va_lemma_norm_mods",
"Prims.Cons",
"Vale.PPC64LE.QuickCode.mod_t",
"Vale.PPC64LE.QuickCode.va_mod_reg_opr",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_update_operand_reg_opr",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsBasic.va_lemma_Xor",
"Vale.PPC64LE.InsBasic.va_code_Xor"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Xor
[@ "opaque_to_smt"]
let va_code_Xor dst src1 src2 =
(Ins (S.Xor dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Xor dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Xor va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Xor) (va_code_Xor dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Xor dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Xor dst src1 src2)) va_s0 in
(va_sM, va_fM) | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_wpProof_Xor : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Xor dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Xor dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [] | Vale.PPC64LE.InsBasic.va_wpProof_Xor | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr ->
va_s0: Vale.PPC64LE.Decls.va_state ->
va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0)
-> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit) | {
"end_col": 22,
"end_line": 563,
"start_col": 45,
"start_line": 557
} |
Prims.Ghost | val va_lemma_LoadImmShl64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr -> src:simm16
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_LoadImmShl64 dst src) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.ishl64 (src `op_Modulus` pow2_64) 16 /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM) | val va_lemma_LoadImmShl64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr -> src:simm16
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_LoadImmShl64 dst src) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.ishl64 (src `op_Modulus` pow2_64) 16 /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))))
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src = | false | null | false | va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let va_old_s:va_state = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let va_sM, va_fM = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_code",
"Vale.PPC64LE.Decls.va_state",
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.simm16",
"Vale.PPC64LE.State.state",
"Vale.PPC64LE.Lemmas.fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Prims.nat",
"Vale.PPC64LE.Decls.va_eval_ins",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Semantics_s.ins",
"Vale.PPC64LE.Semantics_s.ocmp",
"Vale.PPC64LE.Semantics_s.LoadImmShl64",
"Prims.unit",
"Vale.PPC64LE.Decls.va_ins_lemma",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Decls.va_reveal_opaque",
"Vale.PPC64LE.InsBasic.va_code_LoadImmShl64"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"] | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_lemma_LoadImmShl64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr -> src:simm16
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_LoadImmShl64 dst src) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.ishl64 (src `op_Modulus` pow2_64) 16 /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)))) | [] | Vale.PPC64LE.InsBasic.va_lemma_LoadImmShl64 | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
va_b0: Vale.PPC64LE.Decls.va_code ->
va_s0: Vale.PPC64LE.Decls.va_state ->
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src: Vale.PPC64LE.Machine_s.simm16
-> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) | {
"end_col": 16,
"end_line": 83,
"start_col": 2,
"start_line": 79
} |
Prims.Ghost | val va_wpProof_Sl64Imm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:bits64 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Sl64Imm dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Sl64Imm dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_wpProof_Sl64Imm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sl64Imm (va_code_Sl64Imm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | val va_wpProof_Sl64Imm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:bits64 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Sl64Imm dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Sl64Imm dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
let va_wpProof_Sl64Imm dst src1 src2 va_s0 va_k = | false | null | false | let va_sM, va_f0 = va_lemma_Sl64Imm (va_code_Sl64Imm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.bits64",
"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_opr",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_update_operand_reg_opr",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsBasic.va_lemma_Sl64Imm",
"Vale.PPC64LE.InsBasic.va_code_Sl64Imm"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Xor
[@ "opaque_to_smt"]
let va_code_Xor dst src1 src2 =
(Ins (S.Xor dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Xor dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Xor va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Xor) (va_code_Xor dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Xor dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Xor dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Xor dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Xor (va_code_Xor dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- And
[@ "opaque_to_smt"]
let va_code_And dst src1 src2 =
(Ins (S.And dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_And dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_And va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_And) (va_code_And dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.And dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.And dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_And dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_And (va_code_And dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sr64Imm
[@ "opaque_to_smt"]
let va_code_Sr64Imm dst src1 src2 =
(Ins (S.Sr64Imm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sr64Imm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sr64Imm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sr64Imm) (va_code_Sr64Imm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sr64Imm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sr64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sr64Imm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sr64Imm (va_code_Sr64Imm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sl64Imm
[@ "opaque_to_smt"]
let va_code_Sl64Imm dst src1 src2 =
(Ins (S.Sl64Imm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sl64Imm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sl64Imm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sl64Imm) (va_code_Sl64Imm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sl64Imm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sl64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM) | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_wpProof_Sl64Imm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:bits64 ->
va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Sl64Imm dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Sl64Imm dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [] | Vale.PPC64LE.InsBasic.va_wpProof_Sl64Imm | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Machine_s.bits64 ->
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) | {
"end_col": 22,
"end_line": 650,
"start_col": 49,
"start_line": 644
} |
Prims.Ghost | val va_wpProof_Sr64 : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Sr64 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Sr64 dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_wpProof_Sr64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sr64 (va_code_Sr64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | val va_wpProof_Sr64 : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Sr64 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Sr64 dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
let va_wpProof_Sr64 dst src1 src2 va_s0 va_k = | false | null | false | let va_sM, va_f0 = va_lemma_Sr64 (va_code_Sr64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_state",
"Prims.unit",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.Mktuple3",
"Vale.PPC64LE.QuickCode.va_lemma_norm_mods",
"Prims.Cons",
"Vale.PPC64LE.QuickCode.mod_t",
"Vale.PPC64LE.QuickCode.va_mod_reg_opr",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_update_operand_reg_opr",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsBasic.va_lemma_Sr64",
"Vale.PPC64LE.InsBasic.va_code_Sr64"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Xor
[@ "opaque_to_smt"]
let va_code_Xor dst src1 src2 =
(Ins (S.Xor dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Xor dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Xor va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Xor) (va_code_Xor dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Xor dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Xor dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Xor dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Xor (va_code_Xor dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- And
[@ "opaque_to_smt"]
let va_code_And dst src1 src2 =
(Ins (S.And dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_And dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_And va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_And) (va_code_And dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.And dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.And dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_And dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_And (va_code_And dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sr64Imm
[@ "opaque_to_smt"]
let va_code_Sr64Imm dst src1 src2 =
(Ins (S.Sr64Imm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sr64Imm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sr64Imm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sr64Imm) (va_code_Sr64Imm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sr64Imm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sr64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sr64Imm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sr64Imm (va_code_Sr64Imm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sl64Imm
[@ "opaque_to_smt"]
let va_code_Sl64Imm dst src1 src2 =
(Ins (S.Sl64Imm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sl64Imm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sl64Imm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sl64Imm) (va_code_Sl64Imm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sl64Imm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sl64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sl64Imm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sl64Imm (va_code_Sl64Imm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sr64
[@ "opaque_to_smt"]
let va_code_Sr64 dst src1 src2 =
(Ins (S.Sr64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sr64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sr64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sr64) (va_code_Sr64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sr64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sr64 dst src1 src2)) va_s0 in
(va_sM, va_fM) | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_wpProof_Sr64 : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Sr64 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Sr64 dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [] | Vale.PPC64LE.InsBasic.va_wpProof_Sr64 | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr ->
va_s0: Vale.PPC64LE.Decls.va_state ->
va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0)
-> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit) | {
"end_col": 22,
"end_line": 679,
"start_col": 46,
"start_line": 673
} |
Prims.Ghost | val va_lemma_Xor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Xor dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.ixor64 (va_eval_reg_opr va_s0 src1)
(va_eval_reg_opr va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_lemma_Xor va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Xor) (va_code_Xor dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Xor dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Xor dst src1 src2)) va_s0 in
(va_sM, va_fM) | val va_lemma_Xor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Xor dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.ixor64 (va_eval_reg_opr va_s0 src1)
(va_eval_reg_opr va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0))))
let va_lemma_Xor va_b0 va_s0 dst src1 src2 = | false | null | false | va_reveal_opaque (`%va_code_Xor) (va_code_Xor dst src1 src2);
let va_old_s:va_state = va_s0 in
va_ins_lemma (Ins (S.Xor dst src1 src2)) va_s0;
let va_sM, va_fM = va_eval_ins (Ins (S.Xor dst src1 src2)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_code",
"Vale.PPC64LE.Decls.va_state",
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.State.state",
"Vale.PPC64LE.Lemmas.fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Prims.nat",
"Vale.PPC64LE.Decls.va_eval_ins",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Semantics_s.ins",
"Vale.PPC64LE.Semantics_s.ocmp",
"Vale.PPC64LE.Semantics_s.Xor",
"Prims.unit",
"Vale.PPC64LE.Decls.va_ins_lemma",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Decls.va_reveal_opaque",
"Vale.PPC64LE.InsBasic.va_code_Xor"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Xor
[@ "opaque_to_smt"]
let va_code_Xor dst src1 src2 =
(Ins (S.Xor dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Xor dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"] | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_lemma_Xor : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Xor dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.ixor64 (va_eval_reg_opr va_s0 src1)
(va_eval_reg_opr va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0)))) | [] | Vale.PPC64LE.InsBasic.va_lemma_Xor | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
va_b0: Vale.PPC64LE.Decls.va_code ->
va_s0: Vale.PPC64LE.Decls.va_state ->
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) | {
"end_col": 16,
"end_line": 553,
"start_col": 2,
"start_line": 549
} |
Prims.Ghost | val va_lemma_Sr64Imm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:bits64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Sr64Imm dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.ishr64 (va_eval_reg_opr va_s0 src1) src2 /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_lemma_Sr64Imm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sr64Imm) (va_code_Sr64Imm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sr64Imm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sr64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM) | val va_lemma_Sr64Imm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:bits64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Sr64Imm dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.ishr64 (va_eval_reg_opr va_s0 src1) src2 /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))))
let va_lemma_Sr64Imm va_b0 va_s0 dst src1 src2 = | false | null | false | va_reveal_opaque (`%va_code_Sr64Imm) (va_code_Sr64Imm dst src1 src2);
let va_old_s:va_state = va_s0 in
va_ins_lemma (Ins (S.Sr64Imm dst src1 src2)) va_s0;
let va_sM, va_fM = va_eval_ins (Ins (S.Sr64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_code",
"Vale.PPC64LE.Decls.va_state",
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.bits64",
"Vale.PPC64LE.State.state",
"Vale.PPC64LE.Lemmas.fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Prims.nat",
"Vale.PPC64LE.Decls.va_eval_ins",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Semantics_s.ins",
"Vale.PPC64LE.Semantics_s.ocmp",
"Vale.PPC64LE.Semantics_s.Sr64Imm",
"Prims.unit",
"Vale.PPC64LE.Decls.va_ins_lemma",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Decls.va_reveal_opaque",
"Vale.PPC64LE.InsBasic.va_code_Sr64Imm"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Xor
[@ "opaque_to_smt"]
let va_code_Xor dst src1 src2 =
(Ins (S.Xor dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Xor dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Xor va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Xor) (va_code_Xor dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Xor dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Xor dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Xor dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Xor (va_code_Xor dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- And
[@ "opaque_to_smt"]
let va_code_And dst src1 src2 =
(Ins (S.And dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_And dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_And va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_And) (va_code_And dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.And dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.And dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_And dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_And (va_code_And dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sr64Imm
[@ "opaque_to_smt"]
let va_code_Sr64Imm dst src1 src2 =
(Ins (S.Sr64Imm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sr64Imm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"] | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_lemma_Sr64Imm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:bits64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Sr64Imm dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.ishr64 (va_eval_reg_opr va_s0 src1) src2 /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)))) | [] | Vale.PPC64LE.InsBasic.va_lemma_Sr64Imm | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
va_b0: Vale.PPC64LE.Decls.va_code ->
va_s0: Vale.PPC64LE.Decls.va_state ->
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Machine_s.bits64
-> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) | {
"end_col": 16,
"end_line": 611,
"start_col": 2,
"start_line": 607
} |
Prims.Ghost | val va_lemma_SubImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:nsimm16
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_SubImm dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_get_ok va_s0 /\ va_eval_reg_opr va_s0 src1 -
Vale.PPC64LE.Machine_s.int_to_nat64 src2 >= 0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_eval_reg_opr va_s0 src1 - Vale.PPC64LE.Machine_s.int_to_nat64
src2 /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM) | val va_lemma_SubImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:nsimm16
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_SubImm dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_get_ok va_s0 /\ va_eval_reg_opr va_s0 src1 -
Vale.PPC64LE.Machine_s.int_to_nat64 src2 >= 0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_eval_reg_opr va_s0 src1 - Vale.PPC64LE.Machine_s.int_to_nat64
src2 /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))))
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 = | false | null | false | va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let va_old_s:va_state = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let va_sM, va_fM = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_code",
"Vale.PPC64LE.Decls.va_state",
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.nsimm16",
"Vale.PPC64LE.State.state",
"Vale.PPC64LE.Lemmas.fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Prims.nat",
"Vale.PPC64LE.Decls.va_eval_ins",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Semantics_s.ins",
"Vale.PPC64LE.Semantics_s.ocmp",
"Vale.PPC64LE.Semantics_s.SubImm",
"Prims.unit",
"Vale.PPC64LE.Decls.va_ins_lemma",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Decls.va_reveal_opaque",
"Vale.PPC64LE.InsBasic.va_code_SubImm"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"] | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_lemma_SubImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:nsimm16
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_SubImm dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_get_ok va_s0 /\ va_eval_reg_opr va_s0 src1 -
Vale.PPC64LE.Machine_s.int_to_nat64 src2 >= 0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_eval_reg_opr va_s0 src1 - Vale.PPC64LE.Machine_s.int_to_nat64
src2 /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)))) | [] | Vale.PPC64LE.InsBasic.va_lemma_SubImm | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
va_b0: Vale.PPC64LE.Decls.va_code ->
va_s0: Vale.PPC64LE.Decls.va_state ->
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Machine_s.nsimm16
-> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) | {
"end_col": 16,
"end_line": 407,
"start_col": 2,
"start_line": 403
} |
Prims.Ghost | val va_lemma_SubWrap : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_SubWrap dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.sub_wrap64 (va_eval_reg_opr va_s0 src1)
(va_eval_reg_opr va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM) | val va_lemma_SubWrap : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_SubWrap dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.sub_wrap64 (va_eval_reg_opr va_s0 src1)
(va_eval_reg_opr va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0))))
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 = | false | null | false | va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let va_old_s:va_state = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let va_sM, va_fM = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_code",
"Vale.PPC64LE.Decls.va_state",
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.State.state",
"Vale.PPC64LE.Lemmas.fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Prims.nat",
"Vale.PPC64LE.Decls.va_eval_ins",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Semantics_s.ins",
"Vale.PPC64LE.Semantics_s.ocmp",
"Vale.PPC64LE.Semantics_s.Sub",
"Prims.unit",
"Vale.PPC64LE.Decls.va_ins_lemma",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Decls.va_reveal_opaque",
"Vale.PPC64LE.InsBasic.va_code_SubWrap"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"] | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_lemma_SubWrap : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_SubWrap dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.sub_wrap64 (va_eval_reg_opr va_s0 src1)
(va_eval_reg_opr va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0)))) | [] | Vale.PPC64LE.InsBasic.va_lemma_SubWrap | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
va_b0: Vale.PPC64LE.Decls.va_code ->
va_s0: Vale.PPC64LE.Decls.va_state ->
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) | {
"end_col": 16,
"end_line": 378,
"start_col": 2,
"start_line": 374
} |
Prims.Tot | val va_codegen_success_SubWrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ()) | val va_codegen_success_SubWrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool
let va_codegen_success_SubWrap dst src1 src2 = | false | null | false | (va_ttrue ()) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_ttrue",
"Vale.PPC64LE.Decls.va_pbool"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_codegen_success_SubWrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool | [] | Vale.PPC64LE.InsBasic.va_codegen_success_SubWrap | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Vale.PPC64LE.Decls.va_pbool | {
"end_col": 15,
"end_line": 370,
"start_col": 2,
"start_line": 370
} |
Prims.Tot | val va_code_SubWrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Tot va_code | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2)) | val va_code_SubWrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Tot va_code
let va_code_SubWrap dst src1 src2 = | false | null | false | (Ins (S.Sub dst src1 src2)) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Semantics_s.Sub",
"Vale.PPC64LE.Decls.va_code"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_code_SubWrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Tot va_code | [] | Vale.PPC64LE.InsBasic.va_code_SubWrap | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Vale.PPC64LE.Decls.va_code | {
"end_col": 29,
"end_line": 366,
"start_col": 2,
"start_line": 366
} |
Prims.Ghost | val va_lemma_MulLow64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_MulLow64 dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0 /\ (0
<= va_mul_nat (va_eval_reg_opr va_s0 src1) (va_eval_reg_opr va_s0 src2) /\ va_mul_nat
(va_eval_reg_opr va_s0 src1) (va_eval_reg_opr va_s0 src2) < pow2_64)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_mul_nat (va_eval_reg_opr va_s0 src1) (va_eval_reg_opr va_s0
src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM) | val va_lemma_MulLow64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_MulLow64 dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0 /\ (0
<= va_mul_nat (va_eval_reg_opr va_s0 src1) (va_eval_reg_opr va_s0 src2) /\ va_mul_nat
(va_eval_reg_opr va_s0 src1) (va_eval_reg_opr va_s0 src2) < pow2_64)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_mul_nat (va_eval_reg_opr va_s0 src1) (va_eval_reg_opr va_s0
src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))))
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 = | false | null | false | va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let va_old_s:va_state = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let va_sM, va_fM = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_code",
"Vale.PPC64LE.Decls.va_state",
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.State.state",
"Vale.PPC64LE.Lemmas.fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Prims.nat",
"Vale.PPC64LE.Decls.va_eval_ins",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Semantics_s.ins",
"Vale.PPC64LE.Semantics_s.ocmp",
"Vale.PPC64LE.Semantics_s.MulLow64",
"Prims.unit",
"Vale.PPC64LE.Decls.va_ins_lemma",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Decls.va_reveal_opaque",
"Vale.PPC64LE.InsBasic.va_code_MulLow64"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"] | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_lemma_MulLow64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_MulLow64 dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0 /\ (0
<= va_mul_nat (va_eval_reg_opr va_s0 src1) (va_eval_reg_opr va_s0 src2) /\ va_mul_nat
(va_eval_reg_opr va_s0 src1) (va_eval_reg_opr va_s0 src2) < pow2_64)))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_mul_nat (va_eval_reg_opr va_s0 src1) (va_eval_reg_opr va_s0
src2) /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)))) | [] | Vale.PPC64LE.InsBasic.va_lemma_MulLow64 | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
va_b0: Vale.PPC64LE.Decls.va_code ->
va_s0: Vale.PPC64LE.Decls.va_state ->
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) | {
"end_col": 16,
"end_line": 465,
"start_col": 2,
"start_line": 461
} |
Prims.Ghost | val va_lemma_SubImmWrap : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:nsimm16
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_SubImmWrap dst src1 src2) va_s0 /\ va_is_dst_reg_opr
dst va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.sub_wrap64 (va_eval_reg_opr va_s0 src1)
(Vale.PPC64LE.Machine_s.int_to_nat64 src2) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM) | val va_lemma_SubImmWrap : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:nsimm16
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_SubImmWrap dst src1 src2) va_s0 /\ va_is_dst_reg_opr
dst va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.sub_wrap64 (va_eval_reg_opr va_s0 src1)
(Vale.PPC64LE.Machine_s.int_to_nat64 src2) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0))))
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 = | false | null | false | va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let va_old_s:va_state = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let va_sM, va_fM = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_code",
"Vale.PPC64LE.Decls.va_state",
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.nsimm16",
"Vale.PPC64LE.State.state",
"Vale.PPC64LE.Lemmas.fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Prims.nat",
"Vale.PPC64LE.Decls.va_eval_ins",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Semantics_s.ins",
"Vale.PPC64LE.Semantics_s.ocmp",
"Vale.PPC64LE.Semantics_s.SubImm",
"Prims.unit",
"Vale.PPC64LE.Decls.va_ins_lemma",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Decls.va_reveal_opaque",
"Vale.PPC64LE.InsBasic.va_code_SubImmWrap"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"] | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_lemma_SubImmWrap : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:nsimm16
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_SubImmWrap dst src1 src2) va_s0 /\ va_is_dst_reg_opr
dst va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.sub_wrap64 (va_eval_reg_opr va_s0 src1)
(Vale.PPC64LE.Machine_s.int_to_nat64 src2) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0)))) | [] | Vale.PPC64LE.InsBasic.va_lemma_SubImmWrap | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
va_b0: Vale.PPC64LE.Decls.va_code ->
va_s0: Vale.PPC64LE.Decls.va_state ->
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Machine_s.nsimm16
-> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) | {
"end_col": 16,
"end_line": 436,
"start_col": 2,
"start_line": 432
} |
Prims.Tot | val va_code_SubImm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:nsimm16 -> Tot
va_code | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2)) | val va_code_SubImm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:nsimm16 -> Tot
va_code
let va_code_SubImm dst src1 src2 = | false | null | false | (Ins (S.SubImm dst src1 src2)) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.nsimm16",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Semantics_s.SubImm",
"Vale.PPC64LE.Decls.va_code"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_code_SubImm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:nsimm16 -> Tot
va_code | [] | Vale.PPC64LE.InsBasic.va_code_SubImm | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Machine_s.nsimm16
-> Vale.PPC64LE.Decls.va_code | {
"end_col": 32,
"end_line": 395,
"start_col": 2,
"start_line": 395
} |
Prims.Tot | val va_codegen_success_SubImm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:nsimm16
-> Tot va_pbool | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ()) | val va_codegen_success_SubImm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:nsimm16
-> Tot va_pbool
let va_codegen_success_SubImm dst src1 src2 = | false | null | false | (va_ttrue ()) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.nsimm16",
"Vale.PPC64LE.Decls.va_ttrue",
"Vale.PPC64LE.Decls.va_pbool"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_codegen_success_SubImm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:nsimm16
-> Tot va_pbool | [] | Vale.PPC64LE.InsBasic.va_codegen_success_SubImm | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Machine_s.nsimm16
-> Vale.PPC64LE.Decls.va_pbool | {
"end_col": 15,
"end_line": 399,
"start_col": 2,
"start_line": 399
} |
Prims.Tot | val va_codegen_success_SubImmWrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:nsimm16 -> Tot va_pbool | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ()) | val va_codegen_success_SubImmWrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:nsimm16 -> Tot va_pbool
let va_codegen_success_SubImmWrap dst src1 src2 = | false | null | false | (va_ttrue ()) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.nsimm16",
"Vale.PPC64LE.Decls.va_ttrue",
"Vale.PPC64LE.Decls.va_pbool"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_codegen_success_SubImmWrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:nsimm16 -> Tot va_pbool | [] | Vale.PPC64LE.InsBasic.va_codegen_success_SubImmWrap | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Machine_s.nsimm16
-> Vale.PPC64LE.Decls.va_pbool | {
"end_col": 15,
"end_line": 428,
"start_col": 2,
"start_line": 428
} |
Prims.Tot | val va_codegen_success_MulLow64Wrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ()) | val va_codegen_success_MulLow64Wrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool
let va_codegen_success_MulLow64Wrap dst src1 src2 = | false | null | false | (va_ttrue ()) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_ttrue",
"Vale.PPC64LE.Decls.va_pbool"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_codegen_success_MulLow64Wrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool | [] | Vale.PPC64LE.InsBasic.va_codegen_success_MulLow64Wrap | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Vale.PPC64LE.Decls.va_pbool | {
"end_col": 15,
"end_line": 486,
"start_col": 2,
"start_line": 486
} |
Prims.Ghost | val va_lemma_Sr64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Sr64 dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.ishr64 (va_eval_reg_opr va_s0 src1)
(va_eval_reg_opr va_s0 src2 `op_Modulus` 64) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_lemma_Sr64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sr64) (va_code_Sr64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sr64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sr64 dst src1 src2)) va_s0 in
(va_sM, va_fM) | val va_lemma_Sr64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Sr64 dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.ishr64 (va_eval_reg_opr va_s0 src1)
(va_eval_reg_opr va_s0 src2 `op_Modulus` 64) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0))))
let va_lemma_Sr64 va_b0 va_s0 dst src1 src2 = | false | null | false | va_reveal_opaque (`%va_code_Sr64) (va_code_Sr64 dst src1 src2);
let va_old_s:va_state = va_s0 in
va_ins_lemma (Ins (S.Sr64 dst src1 src2)) va_s0;
let va_sM, va_fM = va_eval_ins (Ins (S.Sr64 dst src1 src2)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_code",
"Vale.PPC64LE.Decls.va_state",
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.State.state",
"Vale.PPC64LE.Lemmas.fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Prims.nat",
"Vale.PPC64LE.Decls.va_eval_ins",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Semantics_s.ins",
"Vale.PPC64LE.Semantics_s.ocmp",
"Vale.PPC64LE.Semantics_s.Sr64",
"Prims.unit",
"Vale.PPC64LE.Decls.va_ins_lemma",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Decls.va_reveal_opaque",
"Vale.PPC64LE.InsBasic.va_code_Sr64"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Xor
[@ "opaque_to_smt"]
let va_code_Xor dst src1 src2 =
(Ins (S.Xor dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Xor dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Xor va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Xor) (va_code_Xor dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Xor dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Xor dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Xor dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Xor (va_code_Xor dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- And
[@ "opaque_to_smt"]
let va_code_And dst src1 src2 =
(Ins (S.And dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_And dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_And va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_And) (va_code_And dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.And dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.And dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_And dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_And (va_code_And dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sr64Imm
[@ "opaque_to_smt"]
let va_code_Sr64Imm dst src1 src2 =
(Ins (S.Sr64Imm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sr64Imm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sr64Imm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sr64Imm) (va_code_Sr64Imm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sr64Imm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sr64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sr64Imm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sr64Imm (va_code_Sr64Imm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sl64Imm
[@ "opaque_to_smt"]
let va_code_Sl64Imm dst src1 src2 =
(Ins (S.Sl64Imm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sl64Imm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sl64Imm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sl64Imm) (va_code_Sl64Imm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sl64Imm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sl64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sl64Imm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sl64Imm (va_code_Sl64Imm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sr64
[@ "opaque_to_smt"]
let va_code_Sr64 dst src1 src2 =
(Ins (S.Sr64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sr64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"] | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_lemma_Sr64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Sr64 dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.ishr64 (va_eval_reg_opr va_s0 src1)
(va_eval_reg_opr va_s0 src2 `op_Modulus` 64) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0)))) | [] | Vale.PPC64LE.InsBasic.va_lemma_Sr64 | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
va_b0: Vale.PPC64LE.Decls.va_code ->
va_s0: Vale.PPC64LE.Decls.va_state ->
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) | {
"end_col": 16,
"end_line": 669,
"start_col": 2,
"start_line": 665
} |
Prims.Tot | val va_code_MulHigh64U : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_code | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2)) | val va_code_MulHigh64U : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_code
let va_code_MulHigh64U dst src1 src2 = | false | null | false | (Ins (S.MulHigh64U dst src1 src2)) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Semantics_s.MulHigh64U",
"Vale.PPC64LE.Decls.va_code"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_code_MulHigh64U : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_code | [] | Vale.PPC64LE.InsBasic.va_code_MulHigh64U | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Vale.PPC64LE.Decls.va_code | {
"end_col": 36,
"end_line": 512,
"start_col": 2,
"start_line": 512
} |
Prims.Ghost | val va_lemma_Move : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Move dst src) va_s0 /\ va_is_dst_reg_opr dst va_s0 /\
va_is_src_reg_opr src va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_eval_reg_opr va_s0 src /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM) | val va_lemma_Move : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Move dst src) va_s0 /\ va_is_dst_reg_opr dst va_s0 /\
va_is_src_reg_opr src va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_eval_reg_opr va_s0 src /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0))))
let va_lemma_Move va_b0 va_s0 dst src = | false | null | false | va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let va_old_s:va_state = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let va_sM, va_fM = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_code",
"Vale.PPC64LE.Decls.va_state",
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.State.state",
"Vale.PPC64LE.Lemmas.fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Prims.nat",
"Vale.PPC64LE.Decls.va_eval_ins",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Semantics_s.ins",
"Vale.PPC64LE.Semantics_s.ocmp",
"Vale.PPC64LE.Semantics_s.Move",
"Prims.unit",
"Vale.PPC64LE.Decls.va_ins_lemma",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Decls.va_reveal_opaque",
"Vale.PPC64LE.InsBasic.va_code_Move"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"] | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_lemma_Move : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Move dst src) va_s0 /\ va_is_dst_reg_opr dst va_s0 /\
va_is_src_reg_opr src va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_eval_reg_opr va_s0 src /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0)))) | [] | Vale.PPC64LE.InsBasic.va_lemma_Move | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
va_b0: Vale.PPC64LE.Decls.va_code ->
va_s0: Vale.PPC64LE.Decls.va_state ->
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) | {
"end_col": 16,
"end_line": 25,
"start_col": 2,
"start_line": 21
} |
Prims.Ghost | val va_wpProof_LoadImm64 : dst:va_operand_reg_opr -> src:simm16 -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_LoadImm64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_LoadImm64 dst src) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | val va_wpProof_LoadImm64 : dst:va_operand_reg_opr -> src:simm16 -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_LoadImm64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_LoadImm64 dst src) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
let va_wpProof_LoadImm64 dst src va_s0 va_k = | false | null | false | let va_sM, va_f0 = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.simm16",
"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_opr",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_update_operand_reg_opr",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsBasic.va_lemma_LoadImm64",
"Vale.PPC64LE.InsBasic.va_code_LoadImm64"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM) | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_wpProof_LoadImm64 : dst:va_operand_reg_opr -> src:simm16 -> va_s0:va_state -> va_k:(va_state
-> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_LoadImm64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_LoadImm64 dst src) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [] | Vale.PPC64LE.InsBasic.va_wpProof_LoadImm64 | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src: Vale.PPC64LE.Machine_s.simm16 ->
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) | {
"end_col": 22,
"end_line": 64,
"start_col": 45,
"start_line": 58
} |
Prims.Ghost | val va_wpProof_LoadImmShl64 : dst:va_operand_reg_opr -> src:simm16 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_LoadImmShl64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_LoadImmShl64 dst src) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | val va_wpProof_LoadImmShl64 : dst:va_operand_reg_opr -> src:simm16 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_LoadImmShl64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_LoadImmShl64 dst src) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
let va_wpProof_LoadImmShl64 dst src va_s0 va_k = | false | null | false | let va_sM, va_f0 = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.simm16",
"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_opr",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_update_operand_reg_opr",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsBasic.va_lemma_LoadImmShl64",
"Vale.PPC64LE.InsBasic.va_code_LoadImmShl64"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM) | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_wpProof_LoadImmShl64 : dst:va_operand_reg_opr -> src:simm16 -> va_s0:va_state ->
va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_LoadImmShl64 dst src va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_LoadImmShl64 dst src) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [] | Vale.PPC64LE.InsBasic.va_wpProof_LoadImmShl64 | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src: Vale.PPC64LE.Machine_s.simm16 ->
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) | {
"end_col": 22,
"end_line": 93,
"start_col": 48,
"start_line": 87
} |
Prims.Ghost | val va_lemma_LoadImm64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr -> src:simm16
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_LoadImm64 dst src) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == src `op_Modulus` pow2_64 /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM) | val va_lemma_LoadImm64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr -> src:simm16
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_LoadImm64 dst src) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == src `op_Modulus` pow2_64 /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0))))
let va_lemma_LoadImm64 va_b0 va_s0 dst src = | false | null | false | va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let va_old_s:va_state = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let va_sM, va_fM = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_code",
"Vale.PPC64LE.Decls.va_state",
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.simm16",
"Vale.PPC64LE.State.state",
"Vale.PPC64LE.Lemmas.fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Prims.nat",
"Vale.PPC64LE.Decls.va_eval_ins",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Semantics_s.ins",
"Vale.PPC64LE.Semantics_s.ocmp",
"Vale.PPC64LE.Semantics_s.LoadImm64",
"Prims.unit",
"Vale.PPC64LE.Decls.va_ins_lemma",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Decls.va_reveal_opaque",
"Vale.PPC64LE.InsBasic.va_code_LoadImm64"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"] | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_lemma_LoadImm64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr -> src:simm16
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_LoadImm64 dst src) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == src `op_Modulus` pow2_64 /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0)))) | [] | Vale.PPC64LE.InsBasic.va_lemma_LoadImm64 | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
va_b0: Vale.PPC64LE.Decls.va_code ->
va_s0: Vale.PPC64LE.Decls.va_state ->
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src: Vale.PPC64LE.Machine_s.simm16
-> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) | {
"end_col": 16,
"end_line": 54,
"start_col": 2,
"start_line": 50
} |
Prims.Ghost | val va_wpProof_Add : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Add dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Add dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | val va_wpProof_Add : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Add dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Add dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
let va_wpProof_Add dst src1 src2 va_s0 va_k = | false | null | false | let va_sM, va_f0 = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_state",
"Prims.unit",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.Mktuple3",
"Vale.PPC64LE.QuickCode.va_lemma_norm_mods",
"Prims.Cons",
"Vale.PPC64LE.QuickCode.mod_t",
"Vale.PPC64LE.QuickCode.va_mod_reg_opr",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_update_operand_reg_opr",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsBasic.va_lemma_Add",
"Vale.PPC64LE.InsBasic.va_code_Add"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM) | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_wpProof_Add : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Add dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Add dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [] | Vale.PPC64LE.InsBasic.va_wpProof_Add | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr ->
va_s0: Vale.PPC64LE.Decls.va_state ->
va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0)
-> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit) | {
"end_col": 22,
"end_line": 151,
"start_col": 45,
"start_line": 145
} |
Prims.Tot | val va_codegen_success_Xor : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_codegen_success_Xor dst src1 src2 =
(va_ttrue ()) | val va_codegen_success_Xor : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool
let va_codegen_success_Xor dst src1 src2 = | false | null | false | (va_ttrue ()) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_ttrue",
"Vale.PPC64LE.Decls.va_pbool"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Xor
[@ "opaque_to_smt"]
let va_code_Xor dst src1 src2 =
(Ins (S.Xor dst src1 src2))
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_codegen_success_Xor : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool | [] | Vale.PPC64LE.InsBasic.va_codegen_success_Xor | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Vale.PPC64LE.Decls.va_pbool | {
"end_col": 15,
"end_line": 545,
"start_col": 2,
"start_line": 545
} |
Prims.Ghost | val va_wpProof_AddWrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_AddWrap dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AddWrap dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | val va_wpProof_AddWrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_AddWrap dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AddWrap dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k = | false | null | false | let va_sM, va_f0 = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_state",
"Prims.unit",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.Mktuple3",
"Vale.PPC64LE.QuickCode.va_lemma_norm_mods",
"Prims.Cons",
"Vale.PPC64LE.QuickCode.mod_t",
"Vale.PPC64LE.QuickCode.va_mod_reg_opr",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_update_operand_reg_opr",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsBasic.va_lemma_AddWrap",
"Vale.PPC64LE.InsBasic.va_code_AddWrap"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM) | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_wpProof_AddWrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_AddWrap dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AddWrap dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [] | Vale.PPC64LE.InsBasic.va_wpProof_AddWrap | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr ->
va_s0: Vale.PPC64LE.Decls.va_state ->
va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0)
-> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit) | {
"end_col": 22,
"end_line": 180,
"start_col": 49,
"start_line": 174
} |
Prims.Tot | val va_code_And : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr ->
Tot va_code | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_code_And dst src1 src2 =
(Ins (S.And dst src1 src2)) | val va_code_And : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr ->
Tot va_code
let va_code_And dst src1 src2 = | false | null | false | (Ins (S.And dst src1 src2)) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Semantics_s.And",
"Vale.PPC64LE.Decls.va_code"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Xor
[@ "opaque_to_smt"]
let va_code_Xor dst src1 src2 =
(Ins (S.Xor dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Xor dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Xor va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Xor) (va_code_Xor dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Xor dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Xor dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Xor dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Xor (va_code_Xor dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- And
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_code_And : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr ->
Tot va_code | [] | Vale.PPC64LE.InsBasic.va_code_And | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Vale.PPC64LE.Decls.va_code | {
"end_col": 29,
"end_line": 570,
"start_col": 2,
"start_line": 570
} |
Prims.Ghost | val va_lemma_AddImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:simm16
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_AddImm dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_get_ok va_s0 /\ va_eval_reg_opr va_s0 src1 +
Vale.PPC64LE.Machine_s.int_to_nat64 src2 < pow2_64))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_eval_reg_opr va_s0 src1 + Vale.PPC64LE.Machine_s.int_to_nat64
src2 /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM) | val va_lemma_AddImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:simm16
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_AddImm dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_get_ok va_s0 /\ va_eval_reg_opr va_s0 src1 +
Vale.PPC64LE.Machine_s.int_to_nat64 src2 < pow2_64))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_eval_reg_opr va_s0 src1 + Vale.PPC64LE.Machine_s.int_to_nat64
src2 /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))))
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 = | false | null | false | va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let va_old_s:va_state = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let va_sM, va_fM = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_code",
"Vale.PPC64LE.Decls.va_state",
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.simm16",
"Vale.PPC64LE.State.state",
"Vale.PPC64LE.Lemmas.fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Prims.nat",
"Vale.PPC64LE.Decls.va_eval_ins",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Semantics_s.ins",
"Vale.PPC64LE.Semantics_s.ocmp",
"Vale.PPC64LE.Semantics_s.AddImm",
"Prims.unit",
"Vale.PPC64LE.Decls.va_ins_lemma",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Decls.va_reveal_opaque",
"Vale.PPC64LE.InsBasic.va_code_AddImm"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"] | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_lemma_AddImm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:simm16
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_AddImm dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_get_ok va_s0 /\ va_eval_reg_opr va_s0 src1 +
Vale.PPC64LE.Machine_s.int_to_nat64 src2 < pow2_64))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_eval_reg_opr va_s0 src1 + Vale.PPC64LE.Machine_s.int_to_nat64
src2 /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)))) | [] | Vale.PPC64LE.InsBasic.va_lemma_AddImm | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
va_b0: Vale.PPC64LE.Decls.va_code ->
va_s0: Vale.PPC64LE.Decls.va_state ->
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Machine_s.simm16
-> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) | {
"end_col": 16,
"end_line": 199,
"start_col": 2,
"start_line": 195
} |
Prims.Ghost | val va_lemma_AddCarry : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_AddCarry dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.add_wrap64 (va_eval_reg_opr va_s0 src1)
(va_eval_reg_opr va_s0 src2) /\ Vale.PPC64LE.Decls.xer_ca (va_get_xer va_sM) ==
(va_eval_reg_opr va_s0 src1 + va_eval_reg_opr va_s0 src2 >= pow2_64) /\ va_state_eq va_sM
(va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM) | val va_lemma_AddCarry : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_AddCarry dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.add_wrap64 (va_eval_reg_opr va_s0 src1)
(va_eval_reg_opr va_s0 src2) /\ Vale.PPC64LE.Decls.xer_ca (va_get_xer va_sM) ==
(va_eval_reg_opr va_s0 src1 + va_eval_reg_opr va_s0 src2 >= pow2_64) /\ va_state_eq va_sM
(va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)))))
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 = | false | null | false | va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let va_old_s:va_state = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let va_sM, va_fM = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_code",
"Vale.PPC64LE.Decls.va_state",
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.State.state",
"Vale.PPC64LE.Lemmas.fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Prims.nat",
"Vale.PPC64LE.Decls.va_eval_ins",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Semantics_s.ins",
"Vale.PPC64LE.Semantics_s.ocmp",
"Vale.PPC64LE.Semantics_s.AddCarry",
"Prims.unit",
"Vale.PPC64LE.Decls.va_ins_lemma",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Decls.va_reveal_opaque",
"Vale.PPC64LE.InsBasic.va_code_AddCarry"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"] | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_lemma_AddCarry : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_AddCarry dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.add_wrap64 (va_eval_reg_opr va_s0 src1)
(va_eval_reg_opr va_s0 src2) /\ Vale.PPC64LE.Decls.xer_ca (va_get_xer va_sM) ==
(va_eval_reg_opr va_s0 src1 + va_eval_reg_opr va_s0 src2 >= pow2_64) /\ va_state_eq va_sM
(va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))))) | [] | Vale.PPC64LE.InsBasic.va_lemma_AddCarry | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
va_b0: Vale.PPC64LE.Decls.va_code ->
va_s0: Vale.PPC64LE.Decls.va_state ->
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) | {
"end_col": 16,
"end_line": 257,
"start_col": 2,
"start_line": 253
} |
Prims.Ghost | val va_wpProof_AddCarry : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_AddCarry dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AddCarry dst src1 src2) ([va_Mod_xer;
va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | val va_wpProof_AddCarry : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_AddCarry dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AddCarry dst src1 src2) ([va_Mod_xer;
va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k = | false | null | false | let va_sM, va_f0 = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM
(va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_state",
"Prims.unit",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.Mktuple3",
"Vale.PPC64LE.QuickCode.va_lemma_norm_mods",
"Prims.Cons",
"Vale.PPC64LE.QuickCode.mod_t",
"Vale.PPC64LE.QuickCode.va_Mod_xer",
"Vale.PPC64LE.QuickCode.va_mod_reg_opr",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_xer",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_update_operand_reg_opr",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsBasic.va_lemma_AddCarry",
"Vale.PPC64LE.InsBasic.va_code_AddCarry"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM) | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_wpProof_AddCarry : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_AddCarry dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AddCarry dst src1 src2) ([va_Mod_xer;
va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [] | Vale.PPC64LE.InsBasic.va_wpProof_AddCarry | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr ->
va_s0: Vale.PPC64LE.Decls.va_state ->
va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0)
-> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit) | {
"end_col": 22,
"end_line": 268,
"start_col": 50,
"start_line": 261
} |
Prims.Tot | val va_code_Sr64Imm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:bits64 -> Tot
va_code | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_code_Sr64Imm dst src1 src2 =
(Ins (S.Sr64Imm dst src1 src2)) | val va_code_Sr64Imm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:bits64 -> Tot
va_code
let va_code_Sr64Imm dst src1 src2 = | false | null | false | (Ins (S.Sr64Imm dst src1 src2)) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.bits64",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Semantics_s.Sr64Imm",
"Vale.PPC64LE.Decls.va_code"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Xor
[@ "opaque_to_smt"]
let va_code_Xor dst src1 src2 =
(Ins (S.Xor dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Xor dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Xor va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Xor) (va_code_Xor dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Xor dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Xor dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Xor dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Xor (va_code_Xor dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- And
[@ "opaque_to_smt"]
let va_code_And dst src1 src2 =
(Ins (S.And dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_And dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_And va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_And) (va_code_And dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.And dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.And dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_And dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_And (va_code_And dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sr64Imm
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_code_Sr64Imm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:bits64 -> Tot
va_code | [] | Vale.PPC64LE.InsBasic.va_code_Sr64Imm | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Machine_s.bits64
-> Vale.PPC64LE.Decls.va_code | {
"end_col": 33,
"end_line": 599,
"start_col": 2,
"start_line": 599
} |
Prims.Ghost | val va_wpProof_AddExtendedOV : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_AddExtendedOV dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AddExtendedOV dst src1 src2)
([va_Mod_xer; va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | val va_wpProof_AddExtendedOV : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_AddExtendedOV dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AddExtendedOV dst src1 src2)
([va_Mod_xer; va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k = | false | null | false | let va_sM, va_f0 =
va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM
(va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_state",
"Prims.unit",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.Mktuple3",
"Vale.PPC64LE.QuickCode.va_lemma_norm_mods",
"Prims.Cons",
"Vale.PPC64LE.QuickCode.mod_t",
"Vale.PPC64LE.QuickCode.va_Mod_xer",
"Vale.PPC64LE.QuickCode.va_mod_reg_opr",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_xer",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_update_operand_reg_opr",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsBasic.va_lemma_AddExtendedOV",
"Vale.PPC64LE.InsBasic.va_code_AddExtendedOV"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM) | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_wpProof_AddExtendedOV : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_AddExtendedOV dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_AddExtendedOV dst src1 src2)
([va_Mod_xer; va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [] | Vale.PPC64LE.InsBasic.va_wpProof_AddExtendedOV | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr ->
va_s0: Vale.PPC64LE.Decls.va_state ->
va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0)
-> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit) | {
"end_col": 22,
"end_line": 330,
"start_col": 55,
"start_line": 322
} |
Prims.Ghost | val va_lemma_AddImmWrap : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:simm16
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_AddImmWrap dst src1 src2) va_s0 /\ va_is_dst_reg_opr
dst va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.add_wrap64 (va_eval_reg_opr va_s0 src1)
(Vale.PPC64LE.Machine_s.int_to_nat64 src2) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM) | val va_lemma_AddImmWrap : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:simm16
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_AddImmWrap dst src1 src2) va_s0 /\ va_is_dst_reg_opr
dst va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.add_wrap64 (va_eval_reg_opr va_s0 src1)
(Vale.PPC64LE.Machine_s.int_to_nat64 src2) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0))))
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 = | false | null | false | va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let va_old_s:va_state = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let va_sM, va_fM = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_code",
"Vale.PPC64LE.Decls.va_state",
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.simm16",
"Vale.PPC64LE.State.state",
"Vale.PPC64LE.Lemmas.fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Prims.nat",
"Vale.PPC64LE.Decls.va_eval_ins",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Semantics_s.ins",
"Vale.PPC64LE.Semantics_s.ocmp",
"Vale.PPC64LE.Semantics_s.AddImm",
"Prims.unit",
"Vale.PPC64LE.Decls.va_ins_lemma",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Decls.va_reveal_opaque",
"Vale.PPC64LE.InsBasic.va_code_AddImmWrap"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"] | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_lemma_AddImmWrap : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:simm16
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_AddImmWrap dst src1 src2) va_s0 /\ va_is_dst_reg_opr
dst va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.add_wrap64 (va_eval_reg_opr va_s0 src1)
(Vale.PPC64LE.Machine_s.int_to_nat64 src2) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0)))) | [] | Vale.PPC64LE.InsBasic.va_lemma_AddImmWrap | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
va_b0: Vale.PPC64LE.Decls.va_code ->
va_s0: Vale.PPC64LE.Decls.va_state ->
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Machine_s.simm16
-> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) | {
"end_col": 16,
"end_line": 228,
"start_col": 2,
"start_line": 224
} |
Prims.Tot | val va_codegen_success_Sr64Imm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:bits64
-> Tot va_pbool | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_codegen_success_Sr64Imm dst src1 src2 =
(va_ttrue ()) | val va_codegen_success_Sr64Imm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:bits64
-> Tot va_pbool
let va_codegen_success_Sr64Imm dst src1 src2 = | false | null | false | (va_ttrue ()) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.bits64",
"Vale.PPC64LE.Decls.va_ttrue",
"Vale.PPC64LE.Decls.va_pbool"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Xor
[@ "opaque_to_smt"]
let va_code_Xor dst src1 src2 =
(Ins (S.Xor dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Xor dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Xor va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Xor) (va_code_Xor dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Xor dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Xor dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Xor dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Xor (va_code_Xor dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- And
[@ "opaque_to_smt"]
let va_code_And dst src1 src2 =
(Ins (S.And dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_And dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_And va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_And) (va_code_And dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.And dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.And dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_And dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_And (va_code_And dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sr64Imm
[@ "opaque_to_smt"]
let va_code_Sr64Imm dst src1 src2 =
(Ins (S.Sr64Imm dst src1 src2))
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_codegen_success_Sr64Imm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:bits64
-> Tot va_pbool | [] | Vale.PPC64LE.InsBasic.va_codegen_success_Sr64Imm | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Machine_s.bits64
-> Vale.PPC64LE.Decls.va_pbool | {
"end_col": 15,
"end_line": 603,
"start_col": 2,
"start_line": 603
} |
Prims.Tot | val va_code_Sl64Imm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:bits64 -> Tot
va_code | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_code_Sl64Imm dst src1 src2 =
(Ins (S.Sl64Imm dst src1 src2)) | val va_code_Sl64Imm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:bits64 -> Tot
va_code
let va_code_Sl64Imm dst src1 src2 = | false | null | false | (Ins (S.Sl64Imm dst src1 src2)) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.bits64",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Semantics_s.Sl64Imm",
"Vale.PPC64LE.Decls.va_code"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Xor
[@ "opaque_to_smt"]
let va_code_Xor dst src1 src2 =
(Ins (S.Xor dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Xor dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Xor va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Xor) (va_code_Xor dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Xor dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Xor dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Xor dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Xor (va_code_Xor dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- And
[@ "opaque_to_smt"]
let va_code_And dst src1 src2 =
(Ins (S.And dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_And dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_And va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_And) (va_code_And dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.And dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.And dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_And dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_And (va_code_And dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sr64Imm
[@ "opaque_to_smt"]
let va_code_Sr64Imm dst src1 src2 =
(Ins (S.Sr64Imm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sr64Imm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sr64Imm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sr64Imm) (va_code_Sr64Imm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sr64Imm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sr64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sr64Imm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sr64Imm (va_code_Sr64Imm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sl64Imm
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_code_Sl64Imm : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:bits64 -> Tot
va_code | [] | Vale.PPC64LE.InsBasic.va_code_Sl64Imm | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Machine_s.bits64
-> Vale.PPC64LE.Decls.va_code | {
"end_col": 33,
"end_line": 628,
"start_col": 2,
"start_line": 628
} |
Prims.Tot | val va_code_Sr64 : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr ->
Tot va_code | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_code_Sr64 dst src1 src2 =
(Ins (S.Sr64 dst src1 src2)) | val va_code_Sr64 : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr ->
Tot va_code
let va_code_Sr64 dst src1 src2 = | false | null | false | (Ins (S.Sr64 dst src1 src2)) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Semantics_s.Sr64",
"Vale.PPC64LE.Decls.va_code"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Xor
[@ "opaque_to_smt"]
let va_code_Xor dst src1 src2 =
(Ins (S.Xor dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Xor dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Xor va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Xor) (va_code_Xor dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Xor dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Xor dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Xor dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Xor (va_code_Xor dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- And
[@ "opaque_to_smt"]
let va_code_And dst src1 src2 =
(Ins (S.And dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_And dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_And va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_And) (va_code_And dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.And dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.And dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_And dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_And (va_code_And dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sr64Imm
[@ "opaque_to_smt"]
let va_code_Sr64Imm dst src1 src2 =
(Ins (S.Sr64Imm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sr64Imm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sr64Imm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sr64Imm) (va_code_Sr64Imm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sr64Imm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sr64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sr64Imm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sr64Imm (va_code_Sr64Imm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sl64Imm
[@ "opaque_to_smt"]
let va_code_Sl64Imm dst src1 src2 =
(Ins (S.Sl64Imm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sl64Imm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sl64Imm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sl64Imm) (va_code_Sl64Imm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sl64Imm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sl64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sl64Imm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sl64Imm (va_code_Sl64Imm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sr64
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_code_Sr64 : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr ->
Tot va_code | [] | Vale.PPC64LE.InsBasic.va_code_Sr64 | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Vale.PPC64LE.Decls.va_code | {
"end_col": 30,
"end_line": 657,
"start_col": 2,
"start_line": 657
} |
Prims.Tot | val va_code_Sl64 : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr ->
Tot va_code | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_code_Sl64 dst src1 src2 =
(Ins (S.Sl64 dst src1 src2)) | val va_code_Sl64 : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr ->
Tot va_code
let va_code_Sl64 dst src1 src2 = | false | null | false | (Ins (S.Sl64 dst src1 src2)) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Semantics_s.Sl64",
"Vale.PPC64LE.Decls.va_code"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Xor
[@ "opaque_to_smt"]
let va_code_Xor dst src1 src2 =
(Ins (S.Xor dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Xor dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Xor va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Xor) (va_code_Xor dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Xor dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Xor dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Xor dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Xor (va_code_Xor dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- And
[@ "opaque_to_smt"]
let va_code_And dst src1 src2 =
(Ins (S.And dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_And dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_And va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_And) (va_code_And dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.And dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.And dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_And dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_And (va_code_And dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sr64Imm
[@ "opaque_to_smt"]
let va_code_Sr64Imm dst src1 src2 =
(Ins (S.Sr64Imm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sr64Imm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sr64Imm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sr64Imm) (va_code_Sr64Imm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sr64Imm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sr64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sr64Imm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sr64Imm (va_code_Sr64Imm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sl64Imm
[@ "opaque_to_smt"]
let va_code_Sl64Imm dst src1 src2 =
(Ins (S.Sl64Imm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sl64Imm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sl64Imm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sl64Imm) (va_code_Sl64Imm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sl64Imm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sl64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sl64Imm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sl64Imm (va_code_Sl64Imm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sr64
[@ "opaque_to_smt"]
let va_code_Sr64 dst src1 src2 =
(Ins (S.Sr64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sr64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sr64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sr64) (va_code_Sr64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sr64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sr64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sr64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sr64 (va_code_Sr64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sl64
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_code_Sl64 : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr ->
Tot va_code | [] | Vale.PPC64LE.InsBasic.va_code_Sl64 | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Vale.PPC64LE.Decls.va_code | {
"end_col": 30,
"end_line": 686,
"start_col": 2,
"start_line": 686
} |
Prims.Tot | val va_codegen_success_Sl64 : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_codegen_success_Sl64 dst src1 src2 =
(va_ttrue ()) | val va_codegen_success_Sl64 : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool
let va_codegen_success_Sl64 dst src1 src2 = | false | null | false | (va_ttrue ()) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [
"total"
] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_ttrue",
"Vale.PPC64LE.Decls.va_pbool"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Xor
[@ "opaque_to_smt"]
let va_code_Xor dst src1 src2 =
(Ins (S.Xor dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Xor dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Xor va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Xor) (va_code_Xor dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Xor dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Xor dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Xor dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Xor (va_code_Xor dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- And
[@ "opaque_to_smt"]
let va_code_And dst src1 src2 =
(Ins (S.And dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_And dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_And va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_And) (va_code_And dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.And dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.And dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_And dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_And (va_code_And dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sr64Imm
[@ "opaque_to_smt"]
let va_code_Sr64Imm dst src1 src2 =
(Ins (S.Sr64Imm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sr64Imm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sr64Imm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sr64Imm) (va_code_Sr64Imm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sr64Imm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sr64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sr64Imm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sr64Imm (va_code_Sr64Imm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sl64Imm
[@ "opaque_to_smt"]
let va_code_Sl64Imm dst src1 src2 =
(Ins (S.Sl64Imm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sl64Imm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sl64Imm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sl64Imm) (va_code_Sl64Imm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sl64Imm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sl64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sl64Imm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sl64Imm (va_code_Sl64Imm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sr64
[@ "opaque_to_smt"]
let va_code_Sr64 dst src1 src2 =
(Ins (S.Sr64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sr64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sr64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sr64) (va_code_Sr64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sr64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sr64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sr64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sr64 (va_code_Sr64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sl64
[@ "opaque_to_smt"]
let va_code_Sl64 dst src1 src2 =
(Ins (S.Sl64 dst src1 src2))
[@ "opaque_to_smt"] | false | true | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_codegen_success_Sl64 : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> Tot va_pbool | [] | Vale.PPC64LE.InsBasic.va_codegen_success_Sl64 | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Vale.PPC64LE.Decls.va_pbool | {
"end_col": 15,
"end_line": 690,
"start_col": 2,
"start_line": 690
} |
Prims.Ghost | val va_wpProof_SubWrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_SubWrap dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_SubWrap dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | val va_wpProof_SubWrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_SubWrap dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_SubWrap dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k = | false | null | false | let va_sM, va_f0 = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_state",
"Prims.unit",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.Mktuple3",
"Vale.PPC64LE.QuickCode.va_lemma_norm_mods",
"Prims.Cons",
"Vale.PPC64LE.QuickCode.mod_t",
"Vale.PPC64LE.QuickCode.va_mod_reg_opr",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_update_operand_reg_opr",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsBasic.va_lemma_SubWrap",
"Vale.PPC64LE.InsBasic.va_code_SubWrap"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM) | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_wpProof_SubWrap : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_SubWrap dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_SubWrap dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [] | Vale.PPC64LE.InsBasic.va_wpProof_SubWrap | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr ->
va_s0: Vale.PPC64LE.Decls.va_state ->
va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0)
-> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit) | {
"end_col": 22,
"end_line": 388,
"start_col": 49,
"start_line": 382
} |
Prims.Ghost | val va_wpProof_MulLow64 : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_MulLow64 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_MulLow64 dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | val va_wpProof_MulLow64 : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_MulLow64 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_MulLow64 dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k = | false | null | false | let va_sM, va_f0 = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_state",
"Prims.unit",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.Mktuple3",
"Vale.PPC64LE.QuickCode.va_lemma_norm_mods",
"Prims.Cons",
"Vale.PPC64LE.QuickCode.mod_t",
"Vale.PPC64LE.QuickCode.va_mod_reg_opr",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_update_operand_reg_opr",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsBasic.va_lemma_MulLow64",
"Vale.PPC64LE.InsBasic.va_code_MulLow64"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM) | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_wpProof_MulLow64 : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_MulLow64 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_MulLow64 dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [] | Vale.PPC64LE.InsBasic.va_wpProof_MulLow64 | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr ->
va_s0: Vale.PPC64LE.Decls.va_state ->
va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0)
-> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit) | {
"end_col": 22,
"end_line": 475,
"start_col": 50,
"start_line": 469
} |
Prims.Ghost | val va_lemma_MulLow64Wrap : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_MulLow64Wrap dst src1 src2) va_s0 /\ va_is_dst_reg_opr
dst va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_mul_nat (va_eval_reg_opr va_s0 src1) (va_eval_reg_opr va_s0
src2) `op_Modulus` pow2_64 /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr
dst va_sM va_s0)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM) | val va_lemma_MulLow64Wrap : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_MulLow64Wrap dst src1 src2) va_s0 /\ va_is_dst_reg_opr
dst va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_mul_nat (va_eval_reg_opr va_s0 src1) (va_eval_reg_opr va_s0
src2) `op_Modulus` pow2_64 /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr
dst va_sM va_s0))))
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 = | false | null | false | va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let va_old_s:va_state = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let va_sM, va_fM = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_code",
"Vale.PPC64LE.Decls.va_state",
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.State.state",
"Vale.PPC64LE.Lemmas.fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Prims.nat",
"Vale.PPC64LE.Decls.va_eval_ins",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Semantics_s.ins",
"Vale.PPC64LE.Semantics_s.ocmp",
"Vale.PPC64LE.Semantics_s.MulLow64",
"Prims.unit",
"Vale.PPC64LE.Decls.va_ins_lemma",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Decls.va_reveal_opaque",
"Vale.PPC64LE.InsBasic.va_code_MulLow64Wrap"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"] | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_lemma_MulLow64Wrap : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_MulLow64Wrap dst src1 src2) va_s0 /\ va_is_dst_reg_opr
dst va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_mul_nat (va_eval_reg_opr va_s0 src1) (va_eval_reg_opr va_s0
src2) `op_Modulus` pow2_64 /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr
dst va_sM va_s0)))) | [] | Vale.PPC64LE.InsBasic.va_lemma_MulLow64Wrap | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
va_b0: Vale.PPC64LE.Decls.va_code ->
va_s0: Vale.PPC64LE.Decls.va_state ->
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) | {
"end_col": 16,
"end_line": 494,
"start_col": 2,
"start_line": 490
} |
Prims.Ghost | val va_lemma_MulHigh64U : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_MulHigh64U dst src1 src2) va_s0 /\ va_is_dst_reg_opr
dst va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_mul_nat (va_eval_reg_opr va_s0 src1) (va_eval_reg_opr va_s0
src2) `op_Division` pow2_64 /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr
dst va_sM va_s0)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM) | val va_lemma_MulHigh64U : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_MulHigh64U dst src1 src2) va_s0 /\ va_is_dst_reg_opr
dst va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_mul_nat (va_eval_reg_opr va_s0 src1) (va_eval_reg_opr va_s0
src2) `op_Division` pow2_64 /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr
dst va_sM va_s0))))
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 = | false | null | false | va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let va_old_s:va_state = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let va_sM, va_fM = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_code",
"Vale.PPC64LE.Decls.va_state",
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.State.state",
"Vale.PPC64LE.Lemmas.fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Prims.nat",
"Vale.PPC64LE.Decls.va_eval_ins",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Semantics_s.ins",
"Vale.PPC64LE.Semantics_s.ocmp",
"Vale.PPC64LE.Semantics_s.MulHigh64U",
"Prims.unit",
"Vale.PPC64LE.Decls.va_ins_lemma",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Decls.va_reveal_opaque",
"Vale.PPC64LE.InsBasic.va_code_MulHigh64U"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"] | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_lemma_MulHigh64U : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_MulHigh64U dst src1 src2) va_s0 /\ va_is_dst_reg_opr
dst va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == va_mul_nat (va_eval_reg_opr va_s0 src1) (va_eval_reg_opr va_s0
src2) `op_Division` pow2_64 /\ va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr
dst va_sM va_s0)))) | [] | Vale.PPC64LE.InsBasic.va_lemma_MulHigh64U | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
va_b0: Vale.PPC64LE.Decls.va_code ->
va_s0: Vale.PPC64LE.Decls.va_state ->
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) | {
"end_col": 16,
"end_line": 524,
"start_col": 2,
"start_line": 520
} |
Prims.Ghost | val va_wpProof_MulHigh64U : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_MulHigh64U dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_MulHigh64U dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | val va_wpProof_MulHigh64U : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_MulHigh64U dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_MulHigh64U dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k = | false | null | false | let va_sM, va_f0 = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_state",
"Prims.unit",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.Mktuple3",
"Vale.PPC64LE.QuickCode.va_lemma_norm_mods",
"Prims.Cons",
"Vale.PPC64LE.QuickCode.mod_t",
"Vale.PPC64LE.QuickCode.va_mod_reg_opr",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_update_operand_reg_opr",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsBasic.va_lemma_MulHigh64U",
"Vale.PPC64LE.InsBasic.va_code_MulHigh64U"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM) | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_wpProof_MulHigh64U : dst:va_operand_reg_opr -> src1:va_operand_reg_opr ->
src2:va_operand_reg_opr -> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_MulHigh64U dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_MulHigh64U dst src1 src2)
([va_mod_reg_opr dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [] | Vale.PPC64LE.InsBasic.va_wpProof_MulHigh64U | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr ->
va_s0: Vale.PPC64LE.Decls.va_state ->
va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0)
-> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit) | {
"end_col": 22,
"end_line": 534,
"start_col": 52,
"start_line": 528
} |
Prims.Ghost | val va_lemma_And : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_And dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.iand64 (va_eval_reg_opr va_s0 src1)
(va_eval_reg_opr va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_lemma_And va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_And) (va_code_And dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.And dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.And dst src1 src2)) va_s0 in
(va_sM, va_fM) | val va_lemma_And : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_And dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.iand64 (va_eval_reg_opr va_s0 src1)
(va_eval_reg_opr va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0))))
let va_lemma_And va_b0 va_s0 dst src1 src2 = | false | null | false | va_reveal_opaque (`%va_code_And) (va_code_And dst src1 src2);
let va_old_s:va_state = va_s0 in
va_ins_lemma (Ins (S.And dst src1 src2)) va_s0;
let va_sM, va_fM = va_eval_ins (Ins (S.And dst src1 src2)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_code",
"Vale.PPC64LE.Decls.va_state",
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.State.state",
"Vale.PPC64LE.Lemmas.fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Prims.nat",
"Vale.PPC64LE.Decls.va_eval_ins",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Semantics_s.ins",
"Vale.PPC64LE.Semantics_s.ocmp",
"Vale.PPC64LE.Semantics_s.And",
"Prims.unit",
"Vale.PPC64LE.Decls.va_ins_lemma",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Decls.va_reveal_opaque",
"Vale.PPC64LE.InsBasic.va_code_And"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Xor
[@ "opaque_to_smt"]
let va_code_Xor dst src1 src2 =
(Ins (S.Xor dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Xor dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Xor va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Xor) (va_code_Xor dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Xor dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Xor dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Xor dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Xor (va_code_Xor dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- And
[@ "opaque_to_smt"]
let va_code_And dst src1 src2 =
(Ins (S.And dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_And dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"] | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_lemma_And : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_And dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.iand64 (va_eval_reg_opr va_s0 src1)
(va_eval_reg_opr va_s0 src2) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0)))) | [] | Vale.PPC64LE.InsBasic.va_lemma_And | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
va_b0: Vale.PPC64LE.Decls.va_code ->
va_s0: Vale.PPC64LE.Decls.va_state ->
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) | {
"end_col": 16,
"end_line": 582,
"start_col": 2,
"start_line": 578
} |
Prims.Ghost | val va_wpProof_Sl64 : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Sl64 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Sl64 dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_wpProof_Sl64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sl64 (va_code_Sl64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | val va_wpProof_Sl64 : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Sl64 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Sl64 dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g))))
let va_wpProof_Sl64 dst src1 src2 va_s0 va_k = | false | null | false | let va_sM, va_f0 = va_lemma_Sl64 (va_code_Sl64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Decls.va_state",
"Prims.unit",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.Mktuple3",
"Vale.PPC64LE.QuickCode.va_lemma_norm_mods",
"Prims.Cons",
"Vale.PPC64LE.QuickCode.mod_t",
"Vale.PPC64LE.QuickCode.va_mod_reg_opr",
"Prims.Nil",
"Prims._assert",
"Vale.PPC64LE.Decls.va_state_eq",
"Vale.PPC64LE.Decls.va_update_ok",
"Vale.PPC64LE.Decls.va_update_operand_reg_opr",
"Vale.PPC64LE.Decls.va_lemma_upd_update",
"FStar.Pervasives.Native.tuple3",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Vale.PPC64LE.InsBasic.va_lemma_Sl64",
"Vale.PPC64LE.InsBasic.va_code_Sl64"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Xor
[@ "opaque_to_smt"]
let va_code_Xor dst src1 src2 =
(Ins (S.Xor dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Xor dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Xor va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Xor) (va_code_Xor dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Xor dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Xor dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Xor dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Xor (va_code_Xor dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- And
[@ "opaque_to_smt"]
let va_code_And dst src1 src2 =
(Ins (S.And dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_And dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_And va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_And) (va_code_And dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.And dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.And dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_And dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_And (va_code_And dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sr64Imm
[@ "opaque_to_smt"]
let va_code_Sr64Imm dst src1 src2 =
(Ins (S.Sr64Imm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sr64Imm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sr64Imm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sr64Imm) (va_code_Sr64Imm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sr64Imm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sr64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sr64Imm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sr64Imm (va_code_Sr64Imm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sl64Imm
[@ "opaque_to_smt"]
let va_code_Sl64Imm dst src1 src2 =
(Ins (S.Sl64Imm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sl64Imm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sl64Imm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sl64Imm) (va_code_Sl64Imm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sl64Imm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sl64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sl64Imm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sl64Imm (va_code_Sl64Imm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sr64
[@ "opaque_to_smt"]
let va_code_Sr64 dst src1 src2 =
(Ins (S.Sr64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sr64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sr64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sr64) (va_code_Sr64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sr64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sr64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sr64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sr64 (va_code_Sr64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sl64
[@ "opaque_to_smt"]
let va_code_Sl64 dst src1 src2 =
(Ins (S.Sl64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sl64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sl64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sl64) (va_code_Sl64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sl64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sl64 dst src1 src2)) va_s0 in
(va_sM, va_fM) | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_wpProof_Sl64 : dst:va_operand_reg_opr -> src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> va_s0:va_state -> va_k:(va_state -> unit -> Type0)
-> Ghost (va_state & va_fuel & unit)
(requires (va_t_require va_s0 /\ va_wp_Sl64 dst src1 src2 va_s0 va_k))
(ensures (fun (va_sM, va_f0, va_g) -> va_t_ensure (va_code_Sl64 dst src1 src2) ([va_mod_reg_opr
dst]) va_s0 va_k ((va_sM, va_f0, va_g)))) | [] | Vale.PPC64LE.InsBasic.va_wpProof_Sl64 | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr ->
va_s0: Vale.PPC64LE.Decls.va_state ->
va_k: (_: Vale.PPC64LE.Decls.va_state -> _: Prims.unit -> Type0)
-> Prims.Ghost ((Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) * Prims.unit) | {
"end_col": 22,
"end_line": 708,
"start_col": 46,
"start_line": 702
} |
Prims.Ghost | val va_lemma_Sl64Imm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:bits64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Sl64Imm dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.ishl64 (va_eval_reg_opr va_s0 src1) src2 /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_lemma_Sl64Imm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sl64Imm) (va_code_Sl64Imm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sl64Imm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sl64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM) | val va_lemma_Sl64Imm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:bits64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Sl64Imm dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.ishl64 (va_eval_reg_opr va_s0 src1) src2 /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0))))
let va_lemma_Sl64Imm va_b0 va_s0 dst src1 src2 = | false | null | false | va_reveal_opaque (`%va_code_Sl64Imm) (va_code_Sl64Imm dst src1 src2);
let va_old_s:va_state = va_s0 in
va_ins_lemma (Ins (S.Sl64Imm dst src1 src2)) va_s0;
let va_sM, va_fM = va_eval_ins (Ins (S.Sl64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_code",
"Vale.PPC64LE.Decls.va_state",
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.Machine_s.bits64",
"Vale.PPC64LE.State.state",
"Vale.PPC64LE.Lemmas.fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Prims.nat",
"Vale.PPC64LE.Decls.va_eval_ins",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Semantics_s.ins",
"Vale.PPC64LE.Semantics_s.ocmp",
"Vale.PPC64LE.Semantics_s.Sl64Imm",
"Prims.unit",
"Vale.PPC64LE.Decls.va_ins_lemma",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Decls.va_reveal_opaque",
"Vale.PPC64LE.InsBasic.va_code_Sl64Imm"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Xor
[@ "opaque_to_smt"]
let va_code_Xor dst src1 src2 =
(Ins (S.Xor dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Xor dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Xor va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Xor) (va_code_Xor dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Xor dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Xor dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Xor dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Xor (va_code_Xor dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- And
[@ "opaque_to_smt"]
let va_code_And dst src1 src2 =
(Ins (S.And dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_And dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_And va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_And) (va_code_And dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.And dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.And dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_And dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_And (va_code_And dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sr64Imm
[@ "opaque_to_smt"]
let va_code_Sr64Imm dst src1 src2 =
(Ins (S.Sr64Imm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sr64Imm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sr64Imm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sr64Imm) (va_code_Sr64Imm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sr64Imm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sr64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sr64Imm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sr64Imm (va_code_Sr64Imm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sl64Imm
[@ "opaque_to_smt"]
let va_code_Sl64Imm dst src1 src2 =
(Ins (S.Sl64Imm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sl64Imm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"] | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_lemma_Sl64Imm : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:bits64
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Sl64Imm dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.ishl64 (va_eval_reg_opr va_s0 src1) src2 /\
va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)))) | [] | Vale.PPC64LE.InsBasic.va_lemma_Sl64Imm | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
va_b0: Vale.PPC64LE.Decls.va_code ->
va_s0: Vale.PPC64LE.Decls.va_state ->
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Machine_s.bits64
-> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) | {
"end_col": 16,
"end_line": 640,
"start_col": 2,
"start_line": 636
} |
Prims.Ghost | val va_lemma_Sl64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Sl64 dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.ishl64 (va_eval_reg_opr va_s0 src1)
(va_eval_reg_opr va_s0 src2 `op_Modulus` 64) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0)))) | [
{
"abbrev": true,
"full_module": "Vale.PPC64LE.Semantics_s",
"short_module": "S"
},
{
"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.QuickCode",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Decls",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.State",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.PPC64LE.Machine_s",
"short_module": null
},
{
"abbrev": false,
"full_module": "Vale.Arch.Types",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Mul",
"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
}
] | false | let va_lemma_Sl64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sl64) (va_code_Sl64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sl64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sl64 dst src1 src2)) va_s0 in
(va_sM, va_fM) | val va_lemma_Sl64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Sl64 dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.ishl64 (va_eval_reg_opr va_s0 src1)
(va_eval_reg_opr va_s0 src2 `op_Modulus` 64) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0))))
let va_lemma_Sl64 va_b0 va_s0 dst src1 src2 = | false | null | false | va_reveal_opaque (`%va_code_Sl64) (va_code_Sl64 dst src1 src2);
let va_old_s:va_state = va_s0 in
va_ins_lemma (Ins (S.Sl64 dst src1 src2)) va_s0;
let va_sM, va_fM = va_eval_ins (Ins (S.Sl64 dst src1 src2)) va_s0 in
(va_sM, va_fM) | {
"checked_file": "Vale.PPC64LE.InsBasic.fst.checked",
"dependencies": [
"Vale.PPC64LE.State.fsti.checked",
"Vale.PPC64LE.Stack_i.fsti.checked",
"Vale.PPC64LE.Semantics_s.fst.checked",
"Vale.PPC64LE.Memory.fsti.checked",
"Vale.PPC64LE.Machine_s.fst.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.InsBasic.fst"
} | [] | [
"Vale.PPC64LE.Decls.va_code",
"Vale.PPC64LE.Decls.va_state",
"Vale.PPC64LE.Decls.va_operand_reg_opr",
"Vale.PPC64LE.State.state",
"Vale.PPC64LE.Lemmas.fuel",
"FStar.Pervasives.Native.Mktuple2",
"Vale.PPC64LE.Decls.va_fuel",
"FStar.Pervasives.Native.tuple2",
"Vale.PPC64LE.Machine_s.state",
"Prims.nat",
"Vale.PPC64LE.Decls.va_eval_ins",
"Vale.PPC64LE.Machine_s.Ins",
"Vale.PPC64LE.Semantics_s.ins",
"Vale.PPC64LE.Semantics_s.ocmp",
"Vale.PPC64LE.Semantics_s.Sl64",
"Prims.unit",
"Vale.PPC64LE.Decls.va_ins_lemma",
"Vale.PPC64LE.Decls.ins",
"Vale.PPC64LE.Decls.ocmp",
"Vale.PPC64LE.Decls.va_reveal_opaque",
"Vale.PPC64LE.InsBasic.va_code_Sl64"
] | [] | module Vale.PPC64LE.InsBasic
open Vale.PPC64LE.Machine_s
open Vale.PPC64LE.State
open Vale.PPC64LE.Decls
open Vale.PPC64LE.Memory
open Vale.PPC64LE.Stack_i
friend Vale.PPC64LE.Decls
module S = Vale.PPC64LE.Semantics_s
//-- Move
[@ "opaque_to_smt"]
let va_code_Move dst src =
(Ins (S.Move dst src))
[@ "opaque_to_smt"]
let va_codegen_success_Move dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Move va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_Move) (va_code_Move dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Move dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Move dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Move dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Move (va_code_Move dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImm64
[@ "opaque_to_smt"]
let va_code_LoadImm64 dst src =
(Ins (S.LoadImm64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImm64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImm64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImm64) (va_code_LoadImm64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImm64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImm64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImm64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImm64 (va_code_LoadImm64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- LoadImmShl64
[@ "opaque_to_smt"]
let va_code_LoadImmShl64 dst src =
(Ins (S.LoadImmShl64 dst src))
[@ "opaque_to_smt"]
let va_codegen_success_LoadImmShl64 dst src =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_LoadImmShl64 va_b0 va_s0 dst src =
va_reveal_opaque (`%va_code_LoadImmShl64) (va_code_LoadImmShl64 dst src);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.LoadImmShl64 dst src)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.LoadImmShl64 dst src)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_LoadImmShl64 dst src va_s0 va_k =
let (va_sM, va_f0) = va_lemma_LoadImmShl64 (va_code_LoadImmShl64 dst src) va_s0 dst src in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddLa
[@ "opaque_to_smt"]
let va_code_AddLa dst src1 src2 =
(Ins (S.AddLa dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddLa dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddLa va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddLa) (va_code_AddLa dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddLa dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddLa dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddLa dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddLa (va_code_AddLa dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Add
[@ "opaque_to_smt"]
let va_code_Add dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Add dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Add va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Add) (va_code_Add dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Add dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Add (va_code_Add dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddWrap
[@ "opaque_to_smt"]
let va_code_AddWrap dst src1 src2 =
(Ins (S.Add dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddWrap) (va_code_AddWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Add dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Add dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddWrap (va_code_AddWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImm
[@ "opaque_to_smt"]
let va_code_AddImm dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImm) (va_code_AddImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImm (va_code_AddImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddImmWrap
[@ "opaque_to_smt"]
let va_code_AddImmWrap dst src1 src2 =
(Ins (S.AddImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddImmWrap) (va_code_AddImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddImmWrap (va_code_AddImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddCarry
[@ "opaque_to_smt"]
let va_code_AddCarry dst src1 src2 =
(Ins (S.AddCarry dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddCarry dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddCarry va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddCarry) (va_code_AddCarry dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddCarry dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddCarry dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddCarry dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddCarry (va_code_AddCarry dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtended
[@ "opaque_to_smt"]
let va_code_AddExtended dst src1 src2 =
(Ins (S.AddExtended dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtended dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtended va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtended) (va_code_AddExtended dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtended dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtended dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtended dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtended (va_code_AddExtended dst src1 src2) va_s0 dst src1 src2
in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- AddExtendedOV
[@ "opaque_to_smt"]
let va_code_AddExtendedOV dst src1 src2 =
(Ins (S.AddExtendedOV dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_AddExtendedOV dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_AddExtendedOV va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_AddExtendedOV) (va_code_AddExtendedOV dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.AddExtendedOV dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.AddExtendedOV dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_AddExtendedOV dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_AddExtendedOV (va_code_AddExtendedOV dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_xer va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst
va_sM va_s0))));
va_lemma_norm_mods ([va_Mod_xer; va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sub
[@ "opaque_to_smt"]
let va_code_Sub dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sub dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sub va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sub) (va_code_Sub dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sub dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sub (va_code_Sub dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubWrap
[@ "opaque_to_smt"]
let va_code_SubWrap dst src1 src2 =
(Ins (S.Sub dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubWrap) (va_code_SubWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sub dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sub dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubWrap (va_code_SubWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImm
[@ "opaque_to_smt"]
let va_code_SubImm dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImm) (va_code_SubImm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImm (va_code_SubImm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- SubImmWrap
[@ "opaque_to_smt"]
let va_code_SubImmWrap dst src1 src2 =
(Ins (S.SubImm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_SubImmWrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_SubImmWrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_SubImmWrap) (va_code_SubImmWrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.SubImm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.SubImm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_SubImmWrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_SubImmWrap (va_code_SubImmWrap dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64
[@ "opaque_to_smt"]
let va_code_MulLow64 dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64) (va_code_MulLow64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64 (va_code_MulLow64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulLow64Wrap
[@ "opaque_to_smt"]
let va_code_MulLow64Wrap dst src1 src2 =
(Ins (S.MulLow64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulLow64Wrap dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulLow64Wrap va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulLow64Wrap) (va_code_MulLow64Wrap dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulLow64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulLow64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulLow64Wrap dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulLow64Wrap (va_code_MulLow64Wrap dst src1 src2) va_s0 dst src1
src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- MulHigh64U
[@ "opaque_to_smt"]
let va_code_MulHigh64U dst src1 src2 =
(Ins (S.MulHigh64U dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_MulHigh64U dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_MulHigh64U va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_MulHigh64U) (va_code_MulHigh64U dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.MulHigh64U dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.MulHigh64U dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_MulHigh64U dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_MulHigh64U (va_code_MulHigh64U dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Xor
[@ "opaque_to_smt"]
let va_code_Xor dst src1 src2 =
(Ins (S.Xor dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Xor dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Xor va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Xor) (va_code_Xor dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Xor dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Xor dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Xor dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Xor (va_code_Xor dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- And
[@ "opaque_to_smt"]
let va_code_And dst src1 src2 =
(Ins (S.And dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_And dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_And va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_And) (va_code_And dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.And dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.And dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_And dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_And (va_code_And dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sr64Imm
[@ "opaque_to_smt"]
let va_code_Sr64Imm dst src1 src2 =
(Ins (S.Sr64Imm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sr64Imm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sr64Imm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sr64Imm) (va_code_Sr64Imm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sr64Imm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sr64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sr64Imm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sr64Imm (va_code_Sr64Imm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sl64Imm
[@ "opaque_to_smt"]
let va_code_Sl64Imm dst src1 src2 =
(Ins (S.Sl64Imm dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sl64Imm dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sl64Imm va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sl64Imm) (va_code_Sl64Imm dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sl64Imm dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sl64Imm dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sl64Imm dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sl64Imm (va_code_Sl64Imm dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sr64
[@ "opaque_to_smt"]
let va_code_Sr64 dst src1 src2 =
(Ins (S.Sr64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sr64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"]
let va_lemma_Sr64 va_b0 va_s0 dst src1 src2 =
va_reveal_opaque (`%va_code_Sr64) (va_code_Sr64 dst src1 src2);
let (va_old_s:va_state) = va_s0 in
va_ins_lemma (Ins (S.Sr64 dst src1 src2)) va_s0;
let (va_sM, va_fM) = va_eval_ins (Ins (S.Sr64 dst src1 src2)) va_s0 in
(va_sM, va_fM)
[@"opaque_to_smt"]
let va_wpProof_Sr64 dst src1 src2 va_s0 va_k =
let (va_sM, va_f0) = va_lemma_Sr64 (va_code_Sr64 dst src1 src2) va_s0 dst src1 src2 in
va_lemma_upd_update va_sM;
assert (va_state_eq va_sM (va_update_ok va_sM (va_update_operand_reg_opr dst va_sM va_s0)));
va_lemma_norm_mods ([va_mod_reg_opr dst]) va_sM va_s0;
let va_g = () in
(va_sM, va_f0, va_g)
//--
//-- Sl64
[@ "opaque_to_smt"]
let va_code_Sl64 dst src1 src2 =
(Ins (S.Sl64 dst src1 src2))
[@ "opaque_to_smt"]
let va_codegen_success_Sl64 dst src1 src2 =
(va_ttrue ())
[@"opaque_to_smt"] | false | false | Vale.PPC64LE.InsBasic.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 0,
"max_fuel": 1,
"max_ifuel": 1,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": true,
"smtencoding_l_arith_repr": "native",
"smtencoding_nl_arith_repr": "wrapped",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": false,
"z3cliopt": [
"smt.arith.nl=false",
"smt.QI.EAGER_THRESHOLD=100",
"smt.CASE_SPLIT=3"
],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val va_lemma_Sl64 : va_b0:va_code -> va_s0:va_state -> dst:va_operand_reg_opr ->
src1:va_operand_reg_opr -> src2:va_operand_reg_opr
-> Ghost (va_state & va_fuel)
(requires (va_require_total va_b0 (va_code_Sl64 dst src1 src2) va_s0 /\ va_is_dst_reg_opr dst
va_s0 /\ va_is_src_reg_opr src1 va_s0 /\ va_is_src_reg_opr src2 va_s0 /\ va_get_ok va_s0))
(ensures (fun (va_sM, va_fM) -> va_ensure_total va_b0 va_s0 va_sM va_fM /\ va_get_ok va_sM /\
va_eval_reg_opr va_sM dst == Vale.Arch.Types.ishl64 (va_eval_reg_opr va_s0 src1)
(va_eval_reg_opr va_s0 src2 `op_Modulus` 64) /\ va_state_eq va_sM (va_update_ok va_sM
(va_update_operand_reg_opr dst va_sM va_s0)))) | [] | Vale.PPC64LE.InsBasic.va_lemma_Sl64 | {
"file_name": "obj/Vale.PPC64LE.InsBasic.fst",
"git_rev": "12c5e9539c7e3c366c26409d3b86493548c4483e",
"git_url": "https://github.com/hacl-star/hacl-star.git",
"project_name": "hacl-star"
} |
va_b0: Vale.PPC64LE.Decls.va_code ->
va_s0: Vale.PPC64LE.Decls.va_state ->
dst: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src1: Vale.PPC64LE.Decls.va_operand_reg_opr ->
src2: Vale.PPC64LE.Decls.va_operand_reg_opr
-> Prims.Ghost (Vale.PPC64LE.Decls.va_state * Vale.PPC64LE.Decls.va_fuel) | {
"end_col": 16,
"end_line": 698,
"start_col": 2,
"start_line": 694
} |
Prims.Tot | val mult_nat (a b: nat) : Tot (c: nat{c == a `Prims.op_Multiply` b}) | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Math.Lemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "LowParse",
"short_module": null
},
{
"abbrev": false,
"full_module": "LowParse",
"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
}
] | false | let mult_nat (a b: nat) : Tot (c: nat { c == a `Prims.op_Multiply` b } ) = a `Prims.op_Multiply` b | val mult_nat (a b: nat) : Tot (c: nat{c == a `Prims.op_Multiply` b})
let mult_nat (a b: nat) : Tot (c: nat{c == a `Prims.op_Multiply` b}) = | false | null | false | a `Prims.op_Multiply` b | {
"checked_file": "LowParse.Math.fst.checked",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.Math.Lemmas.fst.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "LowParse.Math.fst"
} | [
"total"
] | [
"Prims.nat",
"Prims.op_Multiply",
"Prims.eq2",
"Prims.int"
] | [] | module LowParse.Math
include FStar.Math.Lemmas
open FStar.Mul
let mul_reg_r
(a b x: int)
: Lemma
(requires (
x <> 0 /\
a * x == b * x
))
(ensures (a == b))
= ()
let mul_reg_l
(x a b: int)
: Lemma
(requires (
x <> 0 /\
x * a == x * b
))
(ensures (a == b))
= ()
let lt_mul_add_reg_r
(x y: nat)
(s: pos)
: Lemma
(requires (x * s < y * s + s))
(ensures (x <= y))
= distributivity_add_left x (y + 1) s
let mult_decomp
(i: pos) (j: nat)
: Lemma
(i * j == j + (i - 1) * j)
= ()
let lemma_div_pow2_le (a: int) (n m: nat) : Lemma
(requires (m <= n /\ a <= pow2 n))
(ensures (m <= n /\ a <= pow2 n /\ a / pow2 m <= pow2 (n - m)))
= if a = pow2 n
then pow2_multiplication_division_lemma_1 1 m n
else lemma_div_lt a n m
let lemma_div_pow2_ge (a: int) (n m: nat) : Lemma
(requires (m <= n /\ pow2 n <= a))
(ensures (pow2 (n - m) <= a / pow2 m))
= pow2_multiplication_division_lemma_1 1 m n;
lemma_div_le (pow2 n) a (pow2 m)
let pow2_le_recip
(a b: nat)
: Lemma
(requires (pow2 a <= pow2 b))
(ensures (a <= b))
= Classical.move_requires (pow2_lt_compat a) b
let pow2_lt_recip
(a b: nat)
: Lemma
(requires (pow2 a < pow2 b))
(ensures (a < b))
= Classical.move_requires (pow2_le_compat a) b
let lemma_mult_lt' (a: pos) (b c: int) : Lemma
(requires (b < c))
(ensures (a * b < a * c))
= ()
let lemma_mult_lt_recip (a: pos) (b c: int) : Lemma
(requires (a * b < a * c))
(ensures (b < c))
= ()
let lemma_mult_le_recip (a: pos) (b c: int) : Lemma
(requires (a * b <= a * c))
(ensures (b <= c))
= ()
let le_antisym (x y: int) : Lemma
(requires (x <= y /\ y <= x))
(ensures (x == y))
= ()
let plus_minus_l (x y: int) : Lemma
(x + y - x == y)
= ()
let plus_minus_r (x y: int) : Lemma
(x + y - y == x)
= ()
let lemma_mult_nat (a b: nat) : Lemma
(0 <= a * b)
= () | false | false | LowParse.Math.fst | {
"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"
} | null | val mult_nat (a b: nat) : Tot (c: nat{c == a `Prims.op_Multiply` b}) | [] | LowParse.Math.mult_nat | {
"file_name": "src/lowparse/LowParse.Math.fst",
"git_rev": "446a08ce38df905547cf20f28c43776b22b8087a",
"git_url": "https://github.com/project-everest/everparse.git",
"project_name": "everparse"
} | a: Prims.nat -> b: Prims.nat -> c: Prims.nat{c == a * b} | {
"end_col": 98,
"end_line": 99,
"start_col": 75,
"start_line": 99
} |
FStar.Pervasives.Lemma | val pow2_le_recip (a b: nat) : Lemma (requires (pow2 a <= pow2 b)) (ensures (a <= b)) | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Math.Lemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "LowParse",
"short_module": null
},
{
"abbrev": false,
"full_module": "LowParse",
"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
}
] | false | let pow2_le_recip
(a b: nat)
: Lemma
(requires (pow2 a <= pow2 b))
(ensures (a <= b))
= Classical.move_requires (pow2_lt_compat a) b | val pow2_le_recip (a b: nat) : Lemma (requires (pow2 a <= pow2 b)) (ensures (a <= b))
let pow2_le_recip (a b: nat) : Lemma (requires (pow2 a <= pow2 b)) (ensures (a <= b)) = | false | null | true | Classical.move_requires (pow2_lt_compat a) b | {
"checked_file": "LowParse.Math.fst.checked",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.Math.Lemmas.fst.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "LowParse.Math.fst"
} | [
"lemma"
] | [
"Prims.nat",
"FStar.Classical.move_requires",
"Prims.b2t",
"Prims.op_LessThan",
"Prims.pow2",
"FStar.Math.Lemmas.pow2_lt_compat",
"Prims.unit",
"Prims.op_LessThanOrEqual",
"Prims.squash",
"Prims.Nil",
"FStar.Pervasives.pattern"
] | [] | module LowParse.Math
include FStar.Math.Lemmas
open FStar.Mul
let mul_reg_r
(a b x: int)
: Lemma
(requires (
x <> 0 /\
a * x == b * x
))
(ensures (a == b))
= ()
let mul_reg_l
(x a b: int)
: Lemma
(requires (
x <> 0 /\
x * a == x * b
))
(ensures (a == b))
= ()
let lt_mul_add_reg_r
(x y: nat)
(s: pos)
: Lemma
(requires (x * s < y * s + s))
(ensures (x <= y))
= distributivity_add_left x (y + 1) s
let mult_decomp
(i: pos) (j: nat)
: Lemma
(i * j == j + (i - 1) * j)
= ()
let lemma_div_pow2_le (a: int) (n m: nat) : Lemma
(requires (m <= n /\ a <= pow2 n))
(ensures (m <= n /\ a <= pow2 n /\ a / pow2 m <= pow2 (n - m)))
= if a = pow2 n
then pow2_multiplication_division_lemma_1 1 m n
else lemma_div_lt a n m
let lemma_div_pow2_ge (a: int) (n m: nat) : Lemma
(requires (m <= n /\ pow2 n <= a))
(ensures (pow2 (n - m) <= a / pow2 m))
= pow2_multiplication_division_lemma_1 1 m n;
lemma_div_le (pow2 n) a (pow2 m)
let pow2_le_recip
(a b: nat)
: Lemma
(requires (pow2 a <= pow2 b)) | false | false | LowParse.Math.fst | {
"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"
} | null | val pow2_le_recip (a b: nat) : Lemma (requires (pow2 a <= pow2 b)) (ensures (a <= b)) | [] | LowParse.Math.pow2_le_recip | {
"file_name": "src/lowparse/LowParse.Math.fst",
"git_rev": "446a08ce38df905547cf20f28c43776b22b8087a",
"git_url": "https://github.com/project-everest/everparse.git",
"project_name": "everparse"
} | a: Prims.nat -> b: Prims.nat
-> FStar.Pervasives.Lemma (requires Prims.pow2 a <= Prims.pow2 b) (ensures a <= b) | {
"end_col": 46,
"end_line": 57,
"start_col": 2,
"start_line": 57
} |
FStar.Pervasives.Lemma | val lt_mul_add_reg_r (x y: nat) (s: pos) : Lemma (requires (x * s < y * s + s)) (ensures (x <= y)) | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Math.Lemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "LowParse",
"short_module": null
},
{
"abbrev": false,
"full_module": "LowParse",
"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
}
] | false | let lt_mul_add_reg_r
(x y: nat)
(s: pos)
: Lemma
(requires (x * s < y * s + s))
(ensures (x <= y))
= distributivity_add_left x (y + 1) s | val lt_mul_add_reg_r (x y: nat) (s: pos) : Lemma (requires (x * s < y * s + s)) (ensures (x <= y))
let lt_mul_add_reg_r (x y: nat) (s: pos) : Lemma (requires (x * s < y * s + s)) (ensures (x <= y)) = | false | null | true | distributivity_add_left x (y + 1) s | {
"checked_file": "LowParse.Math.fst.checked",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.Math.Lemmas.fst.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "LowParse.Math.fst"
} | [
"lemma"
] | [
"Prims.nat",
"Prims.pos",
"FStar.Math.Lemmas.distributivity_add_left",
"Prims.op_Addition",
"Prims.unit",
"Prims.b2t",
"Prims.op_LessThan",
"FStar.Mul.op_Star",
"Prims.squash",
"Prims.op_LessThanOrEqual",
"Prims.Nil",
"FStar.Pervasives.pattern"
] | [] | module LowParse.Math
include FStar.Math.Lemmas
open FStar.Mul
let mul_reg_r
(a b x: int)
: Lemma
(requires (
x <> 0 /\
a * x == b * x
))
(ensures (a == b))
= ()
let mul_reg_l
(x a b: int)
: Lemma
(requires (
x <> 0 /\
x * a == x * b
))
(ensures (a == b))
= ()
let lt_mul_add_reg_r
(x y: nat)
(s: pos)
: Lemma
(requires (x * s < y * s + s)) | false | false | LowParse.Math.fst | {
"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"
} | null | val lt_mul_add_reg_r (x y: nat) (s: pos) : Lemma (requires (x * s < y * s + s)) (ensures (x <= y)) | [] | LowParse.Math.lt_mul_add_reg_r | {
"file_name": "src/lowparse/LowParse.Math.fst",
"git_rev": "446a08ce38df905547cf20f28c43776b22b8087a",
"git_url": "https://github.com/project-everest/everparse.git",
"project_name": "everparse"
} | x: Prims.nat -> y: Prims.nat -> s: Prims.pos
-> FStar.Pervasives.Lemma (requires x * s < y * s + s) (ensures x <= y) | {
"end_col": 37,
"end_line": 31,
"start_col": 2,
"start_line": 31
} |
FStar.Pervasives.Lemma | val pow2_lt_recip (a b: nat) : Lemma (requires (pow2 a < pow2 b)) (ensures (a < b)) | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Math.Lemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "LowParse",
"short_module": null
},
{
"abbrev": false,
"full_module": "LowParse",
"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
}
] | false | let pow2_lt_recip
(a b: nat)
: Lemma
(requires (pow2 a < pow2 b))
(ensures (a < b))
= Classical.move_requires (pow2_le_compat a) b | val pow2_lt_recip (a b: nat) : Lemma (requires (pow2 a < pow2 b)) (ensures (a < b))
let pow2_lt_recip (a b: nat) : Lemma (requires (pow2 a < pow2 b)) (ensures (a < b)) = | false | null | true | Classical.move_requires (pow2_le_compat a) b | {
"checked_file": "LowParse.Math.fst.checked",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.Math.Lemmas.fst.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "LowParse.Math.fst"
} | [
"lemma"
] | [
"Prims.nat",
"FStar.Classical.move_requires",
"Prims.b2t",
"Prims.op_LessThanOrEqual",
"Prims.pow2",
"FStar.Math.Lemmas.pow2_le_compat",
"Prims.unit",
"Prims.op_LessThan",
"Prims.squash",
"Prims.Nil",
"FStar.Pervasives.pattern"
] | [] | module LowParse.Math
include FStar.Math.Lemmas
open FStar.Mul
let mul_reg_r
(a b x: int)
: Lemma
(requires (
x <> 0 /\
a * x == b * x
))
(ensures (a == b))
= ()
let mul_reg_l
(x a b: int)
: Lemma
(requires (
x <> 0 /\
x * a == x * b
))
(ensures (a == b))
= ()
let lt_mul_add_reg_r
(x y: nat)
(s: pos)
: Lemma
(requires (x * s < y * s + s))
(ensures (x <= y))
= distributivity_add_left x (y + 1) s
let mult_decomp
(i: pos) (j: nat)
: Lemma
(i * j == j + (i - 1) * j)
= ()
let lemma_div_pow2_le (a: int) (n m: nat) : Lemma
(requires (m <= n /\ a <= pow2 n))
(ensures (m <= n /\ a <= pow2 n /\ a / pow2 m <= pow2 (n - m)))
= if a = pow2 n
then pow2_multiplication_division_lemma_1 1 m n
else lemma_div_lt a n m
let lemma_div_pow2_ge (a: int) (n m: nat) : Lemma
(requires (m <= n /\ pow2 n <= a))
(ensures (pow2 (n - m) <= a / pow2 m))
= pow2_multiplication_division_lemma_1 1 m n;
lemma_div_le (pow2 n) a (pow2 m)
let pow2_le_recip
(a b: nat)
: Lemma
(requires (pow2 a <= pow2 b))
(ensures (a <= b))
= Classical.move_requires (pow2_lt_compat a) b
let pow2_lt_recip
(a b: nat)
: Lemma
(requires (pow2 a < pow2 b)) | false | false | LowParse.Math.fst | {
"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"
} | null | val pow2_lt_recip (a b: nat) : Lemma (requires (pow2 a < pow2 b)) (ensures (a < b)) | [] | LowParse.Math.pow2_lt_recip | {
"file_name": "src/lowparse/LowParse.Math.fst",
"git_rev": "446a08ce38df905547cf20f28c43776b22b8087a",
"git_url": "https://github.com/project-everest/everparse.git",
"project_name": "everparse"
} | a: Prims.nat -> b: Prims.nat
-> FStar.Pervasives.Lemma (requires Prims.pow2 a < Prims.pow2 b) (ensures a < b) | {
"end_col": 46,
"end_line": 64,
"start_col": 2,
"start_line": 64
} |
FStar.Pervasives.Lemma | val lemma_div_pow2_ge (a: int) (n m: nat)
: Lemma (requires (m <= n /\ pow2 n <= a)) (ensures (pow2 (n - m) <= a / pow2 m)) | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Math.Lemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "LowParse",
"short_module": null
},
{
"abbrev": false,
"full_module": "LowParse",
"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
}
] | false | let lemma_div_pow2_ge (a: int) (n m: nat) : Lemma
(requires (m <= n /\ pow2 n <= a))
(ensures (pow2 (n - m) <= a / pow2 m))
= pow2_multiplication_division_lemma_1 1 m n;
lemma_div_le (pow2 n) a (pow2 m) | val lemma_div_pow2_ge (a: int) (n m: nat)
: Lemma (requires (m <= n /\ pow2 n <= a)) (ensures (pow2 (n - m) <= a / pow2 m))
let lemma_div_pow2_ge (a: int) (n m: nat)
: Lemma (requires (m <= n /\ pow2 n <= a)) (ensures (pow2 (n - m) <= a / pow2 m)) = | false | null | true | pow2_multiplication_division_lemma_1 1 m n;
lemma_div_le (pow2 n) a (pow2 m) | {
"checked_file": "LowParse.Math.fst.checked",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.Math.Lemmas.fst.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "LowParse.Math.fst"
} | [
"lemma"
] | [
"Prims.int",
"Prims.nat",
"FStar.Math.Lemmas.lemma_div_le",
"Prims.pow2",
"Prims.unit",
"FStar.Math.Lemmas.pow2_multiplication_division_lemma_1",
"Prims.l_and",
"Prims.b2t",
"Prims.op_LessThanOrEqual",
"Prims.squash",
"Prims.op_Subtraction",
"Prims.op_Division",
"Prims.Nil",
"FStar.Pervasives.pattern"
] | [] | module LowParse.Math
include FStar.Math.Lemmas
open FStar.Mul
let mul_reg_r
(a b x: int)
: Lemma
(requires (
x <> 0 /\
a * x == b * x
))
(ensures (a == b))
= ()
let mul_reg_l
(x a b: int)
: Lemma
(requires (
x <> 0 /\
x * a == x * b
))
(ensures (a == b))
= ()
let lt_mul_add_reg_r
(x y: nat)
(s: pos)
: Lemma
(requires (x * s < y * s + s))
(ensures (x <= y))
= distributivity_add_left x (y + 1) s
let mult_decomp
(i: pos) (j: nat)
: Lemma
(i * j == j + (i - 1) * j)
= ()
let lemma_div_pow2_le (a: int) (n m: nat) : Lemma
(requires (m <= n /\ a <= pow2 n))
(ensures (m <= n /\ a <= pow2 n /\ a / pow2 m <= pow2 (n - m)))
= if a = pow2 n
then pow2_multiplication_division_lemma_1 1 m n
else lemma_div_lt a n m
let lemma_div_pow2_ge (a: int) (n m: nat) : Lemma
(requires (m <= n /\ pow2 n <= a)) | false | false | LowParse.Math.fst | {
"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"
} | null | val lemma_div_pow2_ge (a: int) (n m: nat)
: Lemma (requires (m <= n /\ pow2 n <= a)) (ensures (pow2 (n - m) <= a / pow2 m)) | [] | LowParse.Math.lemma_div_pow2_ge | {
"file_name": "src/lowparse/LowParse.Math.fst",
"git_rev": "446a08ce38df905547cf20f28c43776b22b8087a",
"git_url": "https://github.com/project-everest/everparse.git",
"project_name": "everparse"
} | a: Prims.int -> n: Prims.nat -> m: Prims.nat
-> FStar.Pervasives.Lemma (requires m <= n /\ Prims.pow2 n <= a)
(ensures Prims.pow2 (n - m) <= a / Prims.pow2 m) | {
"end_col": 34,
"end_line": 50,
"start_col": 2,
"start_line": 49
} |
FStar.Pervasives.Lemma | val lemma_div_pow2_le (a: int) (n m: nat)
: Lemma (requires (m <= n /\ a <= pow2 n))
(ensures (m <= n /\ a <= pow2 n /\ a / pow2 m <= pow2 (n - m))) | [
{
"abbrev": false,
"full_module": "FStar.Mul",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Math.Lemmas",
"short_module": null
},
{
"abbrev": false,
"full_module": "LowParse",
"short_module": null
},
{
"abbrev": false,
"full_module": "LowParse",
"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
}
] | false | let lemma_div_pow2_le (a: int) (n m: nat) : Lemma
(requires (m <= n /\ a <= pow2 n))
(ensures (m <= n /\ a <= pow2 n /\ a / pow2 m <= pow2 (n - m)))
= if a = pow2 n
then pow2_multiplication_division_lemma_1 1 m n
else lemma_div_lt a n m | val lemma_div_pow2_le (a: int) (n m: nat)
: Lemma (requires (m <= n /\ a <= pow2 n))
(ensures (m <= n /\ a <= pow2 n /\ a / pow2 m <= pow2 (n - m)))
let lemma_div_pow2_le (a: int) (n m: nat)
: Lemma (requires (m <= n /\ a <= pow2 n))
(ensures (m <= n /\ a <= pow2 n /\ a / pow2 m <= pow2 (n - m))) = | false | null | true | if a = pow2 n then pow2_multiplication_division_lemma_1 1 m n else lemma_div_lt a n m | {
"checked_file": "LowParse.Math.fst.checked",
"dependencies": [
"prims.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Mul.fst.checked",
"FStar.Math.Lemmas.fst.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "LowParse.Math.fst"
} | [
"lemma"
] | [
"Prims.int",
"Prims.nat",
"Prims.op_Equality",
"Prims.pow2",
"FStar.Math.Lemmas.pow2_multiplication_division_lemma_1",
"Prims.bool",
"FStar.Math.Lemmas.lemma_div_lt",
"Prims.unit",
"Prims.l_and",
"Prims.b2t",
"Prims.op_LessThanOrEqual",
"Prims.squash",
"Prims.op_Division",
"Prims.op_Subtraction",
"Prims.Nil",
"FStar.Pervasives.pattern"
] | [] | module LowParse.Math
include FStar.Math.Lemmas
open FStar.Mul
let mul_reg_r
(a b x: int)
: Lemma
(requires (
x <> 0 /\
a * x == b * x
))
(ensures (a == b))
= ()
let mul_reg_l
(x a b: int)
: Lemma
(requires (
x <> 0 /\
x * a == x * b
))
(ensures (a == b))
= ()
let lt_mul_add_reg_r
(x y: nat)
(s: pos)
: Lemma
(requires (x * s < y * s + s))
(ensures (x <= y))
= distributivity_add_left x (y + 1) s
let mult_decomp
(i: pos) (j: nat)
: Lemma
(i * j == j + (i - 1) * j)
= ()
let lemma_div_pow2_le (a: int) (n m: nat) : Lemma
(requires (m <= n /\ a <= pow2 n)) | false | false | LowParse.Math.fst | {
"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"
} | null | val lemma_div_pow2_le (a: int) (n m: nat)
: Lemma (requires (m <= n /\ a <= pow2 n))
(ensures (m <= n /\ a <= pow2 n /\ a / pow2 m <= pow2 (n - m))) | [] | LowParse.Math.lemma_div_pow2_le | {
"file_name": "src/lowparse/LowParse.Math.fst",
"git_rev": "446a08ce38df905547cf20f28c43776b22b8087a",
"git_url": "https://github.com/project-everest/everparse.git",
"project_name": "everparse"
} | a: Prims.int -> n: Prims.nat -> m: Prims.nat
-> FStar.Pervasives.Lemma (requires m <= n /\ a <= Prims.pow2 n)
(ensures m <= n /\ a <= Prims.pow2 n /\ a / Prims.pow2 m <= Prims.pow2 (n - m)) | {
"end_col": 25,
"end_line": 44,
"start_col": 2,
"start_line": 42
} |
FStar.Tactics.Effect.Tac | val check_bind
(g:env)
(pre:term)
(pre_typing:tot_typing g pre tm_vprop)
(post_hint:post_hint_opt g)
(res_ppname:ppname)
(t:st_term{Tm_Bind? t.term})
(check:check_t)
: T.Tac (checker_result_t g pre post_hint) | [
{
"abbrev": true,
"full_module": "Pulse.Checker.Prover.Substs",
"short_module": "PS"
},
{
"abbrev": true,
"full_module": "Pulse.Typing.Metatheory",
"short_module": "Metatheory"
},
{
"abbrev": true,
"full_module": "Pulse.Syntax.Printer",
"short_module": "P"
},
{
"abbrev": false,
"full_module": "Pulse.Checker.Prover",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Checker.Pure",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Typing.Combinators",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Checker.Base",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Typing",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": false,
"full_module": "Pulse.Checker",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Checker",
"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
}
] | false | let check_bind
(g:env)
(ctxt:vprop)
(ctxt_typing:tot_typing g ctxt tm_vprop)
(post_hint:post_hint_opt g)
(res_ppname:ppname)
(t:st_term {Tm_Bind? t.term})
(check:check_t)
: T.Tac (checker_result_t g ctxt post_hint) =
let g = Pulse.Typing.Env.push_context g "check_bind" t.range in
debug_prover g (fun _ ->
Printf.sprintf "checking bind:\n%s\n" (P.st_term_to_string t));
if None? post_hint
then fail g (Some t.range) "check_bind: post hint is not set, please add an annotation";
let Tm_Bind { binder; head=e1; body=e2 } = t.term in
if Tm_Admit? e1.term
then ( //Discard the continuation if the head is an admit
check g ctxt ctxt_typing post_hint res_ppname e1
)
else (
let (| x, g1, _, (| ctxt', ctxt'_typing |), k1 |) =
let r = check g ctxt ctxt_typing None binder.binder_ppname e1 in
(* Check that the type matches the annotation, if any *)
let ty = binder.binder_ty in
begin match ty.t with
| Tm_Unknown -> ()
| _ ->
let (| ty, _, _ |) = check_tot_term g ty in //elaborate it first
let (| _, _, (| _, t, _ |), _, _ |) = r in
// TODO: once we have the rename operation then we should
// ditch this check and just elaborate the bind
// let x : ty = stapp in ...
// to
// let x0 = stapp in
// let x : t = x0 in
// rename x0 x; ...
// to leverage the pure case
if not (eq_tm ty t) then
fail g (Some e1.range)
(Printf.sprintf "Type mismatch: expected %s, got %s" (P.term_to_string ty) (P.term_to_string t))
end;
r
in
let d : st_typing_in_ctxt g1 ctxt' post_hint =
let ppname = mk_ppname_no_range "_bind_c" in
let r =
check g1 ctxt' ctxt'_typing post_hint ppname (open_st_term_nv e2 (binder.binder_ppname, x)) in
apply_checker_result_k #_ #_ #(Some?.v post_hint) r ppname in
let d : st_typing_in_ctxt g ctxt post_hint = k1 post_hint d in
checker_result_for_st_typing d res_ppname
) | val check_bind
(g:env)
(pre:term)
(pre_typing:tot_typing g pre tm_vprop)
(post_hint:post_hint_opt g)
(res_ppname:ppname)
(t:st_term{Tm_Bind? t.term})
(check:check_t)
: T.Tac (checker_result_t g pre post_hint)
let check_bind
(g: env)
(ctxt: vprop)
(ctxt_typing: tot_typing g ctxt tm_vprop)
(post_hint: post_hint_opt g)
(res_ppname: ppname)
(t: st_term{Tm_Bind? t.term})
(check: check_t)
: T.Tac (checker_result_t g ctxt post_hint) = | true | null | false | let g = Pulse.Typing.Env.push_context g "check_bind" t.range in
debug_prover g (fun _ -> Printf.sprintf "checking bind:\n%s\n" (P.st_term_to_string t));
if None? post_hint
then fail g (Some t.range) "check_bind: post hint is not set, please add an annotation";
let Tm_Bind { binder = binder ; head = e1 ; body = e2 } = t.term in
if Tm_Admit? e1.term
then (check g ctxt ctxt_typing post_hint res_ppname e1)
else
(let (| x , g1 , _ , (| ctxt' , ctxt'_typing |) , k1 |) =
let r = check g ctxt ctxt_typing None binder.binder_ppname e1 in
let ty = binder.binder_ty in
(match ty.t with
| Tm_Unknown -> ()
| _ ->
let (| ty , _ , _ |) = check_tot_term g ty in
let (| _ , _ , (| _ , t , _ |) , _ , _ |) = r in
if not (eq_tm ty t)
then
fail g
(Some e1.range)
(Printf.sprintf "Type mismatch: expected %s, got %s"
(P.term_to_string ty)
(P.term_to_string t)));
r
in
let d:st_typing_in_ctxt g1 ctxt' post_hint =
let ppname = mk_ppname_no_range "_bind_c" in
let r =
check g1 ctxt' ctxt'_typing post_hint ppname (open_st_term_nv e2 (binder.binder_ppname, x))
in
apply_checker_result_k #_ #_ #(Some?.v post_hint) r ppname
in
let d:st_typing_in_ctxt g ctxt post_hint = k1 post_hint d in
checker_result_for_st_typing d res_ppname) | {
"checked_file": "Pulse.Checker.Bind.fst.checked",
"dependencies": [
"Pulse.Typing.Metatheory.fsti.checked",
"Pulse.Typing.Env.fsti.checked",
"Pulse.Typing.Combinators.fsti.checked",
"Pulse.Typing.fst.checked",
"Pulse.Syntax.Printer.fsti.checked",
"Pulse.Syntax.fst.checked",
"Pulse.Checker.Pure.fsti.checked",
"Pulse.Checker.Prover.Substs.fsti.checked",
"Pulse.Checker.Prover.fsti.checked",
"Pulse.Checker.Base.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Printf.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": true,
"source_file": "Pulse.Checker.Bind.fst"
} | [] | [
"Pulse.Typing.Env.env",
"Pulse.Syntax.Base.vprop",
"Pulse.Typing.tot_typing",
"Pulse.Syntax.Base.tm_vprop",
"Pulse.Typing.post_hint_opt",
"Pulse.Syntax.Base.ppname",
"Pulse.Syntax.Base.st_term",
"Prims.b2t",
"Pulse.Syntax.Base.uu___is_Tm_Bind",
"Pulse.Syntax.Base.__proj__Mkst_term__item__term",
"Pulse.Checker.Base.check_t",
"Pulse.Syntax.Base.binder",
"Pulse.Syntax.Base.uu___is_Tm_Admit",
"Pulse.Checker.Base.checker_result_t",
"Prims.bool",
"Pulse.Syntax.Base.var",
"Pulse.Typing.Env.env_extends",
"FStar.Pervasives.dtuple3",
"Pulse.Syntax.Base.universe",
"Pulse.Syntax.Base.typ",
"Pulse.Typing.universe_of",
"Pulse.Checker.Base.continuation_elaborator",
"FStar.Pervasives.dfst",
"Prims.Mkdtuple2",
"Pulse.Checker.Base.checker_result_inv",
"FStar.Pervasives.Native.None",
"Pulse.Typing.post_hint_t",
"Pulse.Checker.Base.checker_result_for_st_typing",
"Pulse.Typing.Combinators.st_typing_in_ctxt",
"Pulse.Checker.Base.apply_checker_result_k",
"FStar.Pervasives.Native.__proj__Some__item__v",
"FStar.Pervasives.Native.Some",
"Pulse.Syntax.Naming.open_st_term_nv",
"FStar.Pervasives.Native.Mktuple2",
"Pulse.Syntax.Base.__proj__Mkbinder__item__binder_ppname",
"Pulse.Syntax.Base.mk_ppname_no_range",
"Prims.unit",
"Pulse.Syntax.Base.__proj__Mkterm__item__t",
"Pulse.Syntax.Base.term'",
"Pulse.Syntax.Base.term",
"Prims.dtuple2",
"FStar.Pervasives.Mkdtuple3",
"Prims.op_Negation",
"Pulse.Syntax.Base.eq_tm",
"Pulse.Typing.Env.fail",
"Pulse.Syntax.Base.range",
"Pulse.Syntax.Base.__proj__Mkst_term__item__range",
"Prims.string",
"FStar.Printf.sprintf",
"Pulse.Syntax.Printer.term_to_string",
"Pulse.Checker.Pure.check_tot_term",
"Pulse.Syntax.Base.__proj__Mkbinder__item__binder_ty",
"Pulse.Syntax.Base.st_term'",
"FStar.Pervasives.Native.uu___is_None",
"Pulse.Checker.Prover.Util.debug_prover",
"Pulse.Syntax.Printer.st_term_to_string",
"Prims.eq2",
"Pulse.Typing.Env.push_context"
] | [] | module Pulse.Checker.Bind
open Pulse.Syntax
open Pulse.Typing
open Pulse.Typing.Combinators
open Pulse.Checker.Base
open Pulse.Checker.Pure
open Pulse.Checker.Prover
module T = FStar.Tactics.V2
module P = Pulse.Syntax.Printer
module Metatheory = Pulse.Typing.Metatheory
module PS = Pulse.Checker.Prover.Substs
#push-options "--z3rlimit_factor 4 --fuel 1 --ifuel 1"
let check_bind
(g:env)
(ctxt:vprop)
(ctxt_typing:tot_typing g ctxt tm_vprop)
(post_hint:post_hint_opt g)
(res_ppname:ppname)
(t:st_term {Tm_Bind? t.term}) | false | false | Pulse.Checker.Bind.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 1,
"initial_ifuel": 1,
"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": 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": 4,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val check_bind
(g:env)
(pre:term)
(pre_typing:tot_typing g pre tm_vprop)
(post_hint:post_hint_opt g)
(res_ppname:ppname)
(t:st_term{Tm_Bind? t.term})
(check:check_t)
: T.Tac (checker_result_t g pre post_hint) | [] | Pulse.Checker.Bind.check_bind | {
"file_name": "lib/steel/pulse/Pulse.Checker.Bind.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
g: Pulse.Typing.Env.env ->
pre: Pulse.Syntax.Base.term ->
pre_typing: Pulse.Typing.tot_typing g pre Pulse.Syntax.Base.tm_vprop ->
post_hint: Pulse.Typing.post_hint_opt g ->
res_ppname: Pulse.Syntax.Base.ppname ->
t: Pulse.Syntax.Base.st_term{Tm_Bind? (Mkst_term?.term t)} ->
check: Pulse.Checker.Base.check_t
-> FStar.Tactics.Effect.Tac (Pulse.Checker.Base.checker_result_t g pre post_hint) | {
"end_col": 3,
"end_line": 71,
"start_col": 47,
"start_line": 24
} |
FStar.Tactics.Effect.Tac | val check_tot_bind
(g:env)
(pre:term)
(pre_typing:tot_typing g pre tm_vprop)
(post_hint:post_hint_opt g)
(res_ppname:ppname)
(t:st_term { Tm_TotBind? t.term })
(check:check_t)
: T.Tac (checker_result_t g pre post_hint) | [
{
"abbrev": true,
"full_module": "Pulse.Checker.Prover.Substs",
"short_module": "PS"
},
{
"abbrev": true,
"full_module": "Pulse.Typing.Metatheory",
"short_module": "Metatheory"
},
{
"abbrev": true,
"full_module": "Pulse.Syntax.Printer",
"short_module": "P"
},
{
"abbrev": false,
"full_module": "Pulse.Checker.Prover",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Checker.Pure",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Typing.Combinators",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Checker.Base",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Typing",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Syntax",
"short_module": null
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": false,
"full_module": "Pulse.Checker",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Checker",
"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
}
] | false | let check_tot_bind
(g:env)
(pre:term)
(pre_typing:tot_typing g pre tm_vprop)
(post_hint:post_hint_opt g)
(res_ppname:ppname)
(t:st_term { Tm_TotBind? t.term })
(check:check_t)
: T.Tac (checker_result_t g pre post_hint) =
let g = Pulse.Typing.Env.push_context g "check_tot_bind" t.range in
if None? post_hint
then fail g (Some t.range) "check_tot_bind: post hint is not set, please add an annotation";
// let Tm_TotBind { head=e1; body=e2 } = t.term in
// let (| e1, eff1, t1, (| u1, _t1_typing |), e1_typing |) =
// check_term_and_type g e1 in
let Tm_TotBind { binder=b; head=e1; body=e2 } = t.term in
let (| e1, eff1, t1, (| u1, _t1_typing |) , e1_typing |) =
(* If there's an annotated type for e1 in the binder, we check it at
that type. Otherwise we just call check_term_and_type and infer. *)
let ty = b.binder_ty in
match ty.t with
| Tm_Unknown ->
check_term_and_type g e1
| _ ->
let (| ty, _, _ |) = check_tot_term g ty in //elaborate it first
let (| u1, ty_typing |) = check_universe g ty in
let (| e1, eff1, e1_typing |) = check_term_with_expected_type g e1 ty in
let ty_typing : universe_of g ty u1 = ty_typing in
let e1_typing : typing g e1 eff1 ty = e1_typing in
(| e1, eff1, ty, (| u1, ty_typing |), e1_typing |)
<: (t:term & eff:T.tot_or_ghost & ty:term & (u:universe & universe_of g ty u) & typing g t eff ty)
(* ^ Need this annotation *)
in
let t1 =
let b = {binder_ty=t1;binder_ppname=ppname_default} in
let eq_tm = mk_eq2 u1 t1 (null_bvar 0) e1 in
tm_refine b eq_tm in
// THIS IS WASTEFUL, CHECKING e1 MULTIPLE TIMES
let (| e1, e1_typing |) =
check_term_with_expected_type_and_effect g e1 eff1 t1 in
let x = fresh g in
let b = { b with binder_ty = t1 } in
let k = continuation_elaborator_with_let pre_typing b e1_typing (ppname_default, x) in
let px = b.binder_ppname, x in
let g' = push_binding g x (fst px) t1 in
let pre_typing' : tot_typing g' pre tm_vprop =
Metatheory.tot_typing_weakening_single pre_typing x t1 in
let d =
let ppname = mk_ppname_no_range "_tbind_c" in
let r = check g' pre pre_typing' post_hint ppname (open_st_term_nv e2 px) in
apply_checker_result_k #_ #_ #(Some?.v post_hint) r ppname in
let d = k post_hint d in
checker_result_for_st_typing d res_ppname | val check_tot_bind
(g:env)
(pre:term)
(pre_typing:tot_typing g pre tm_vprop)
(post_hint:post_hint_opt g)
(res_ppname:ppname)
(t:st_term { Tm_TotBind? t.term })
(check:check_t)
: T.Tac (checker_result_t g pre post_hint)
let check_tot_bind
(g: env)
(pre: term)
(pre_typing: tot_typing g pre tm_vprop)
(post_hint: post_hint_opt g)
(res_ppname: ppname)
(t: st_term{Tm_TotBind? t.term})
(check: check_t)
: T.Tac (checker_result_t g pre post_hint) = | true | null | false | let g = Pulse.Typing.Env.push_context g "check_tot_bind" t.range in
if None? post_hint
then fail g (Some t.range) "check_tot_bind: post hint is not set, please add an annotation";
let Tm_TotBind { binder = b ; head = e1 ; body = e2 } = t.term in
let (| e1 , eff1 , t1 , (| u1 , _t1_typing |) , e1_typing |) =
let ty = b.binder_ty in
match ty.t with
| Tm_Unknown -> check_term_and_type g e1
| _ ->
let (| ty , _ , _ |) = check_tot_term g ty in
let (| u1 , ty_typing |) = check_universe g ty in
let (| e1 , eff1 , e1_typing |) = check_term_with_expected_type g e1 ty in
let ty_typing:universe_of g ty u1 = ty_typing in
let e1_typing:typing g e1 eff1 ty = e1_typing in
(| e1, eff1, ty, (| u1, ty_typing |), e1_typing |)
<:
(t: term &
eff: T.tot_or_ghost &
ty: term &
(u: universe & universe_of g ty u) &
typing g t eff ty)
in
let t1 =
let b = { binder_ty = t1; binder_ppname = ppname_default } in
let eq_tm = mk_eq2 u1 t1 (null_bvar 0) e1 in
tm_refine b eq_tm
in
let (| e1 , e1_typing |) = check_term_with_expected_type_and_effect g e1 eff1 t1 in
let x = fresh g in
let b = { b with binder_ty = t1 } in
let k = continuation_elaborator_with_let pre_typing b e1_typing (ppname_default, x) in
let px = b.binder_ppname, x in
let g' = push_binding g x (fst px) t1 in
let pre_typing':tot_typing g' pre tm_vprop =
Metatheory.tot_typing_weakening_single pre_typing x t1
in
let d =
let ppname = mk_ppname_no_range "_tbind_c" in
let r = check g' pre pre_typing' post_hint ppname (open_st_term_nv e2 px) in
apply_checker_result_k #_ #_ #(Some?.v post_hint) r ppname
in
let d = k post_hint d in
checker_result_for_st_typing d res_ppname | {
"checked_file": "Pulse.Checker.Bind.fst.checked",
"dependencies": [
"Pulse.Typing.Metatheory.fsti.checked",
"Pulse.Typing.Env.fsti.checked",
"Pulse.Typing.Combinators.fsti.checked",
"Pulse.Typing.fst.checked",
"Pulse.Syntax.Printer.fsti.checked",
"Pulse.Syntax.fst.checked",
"Pulse.Checker.Pure.fsti.checked",
"Pulse.Checker.Prover.Substs.fsti.checked",
"Pulse.Checker.Prover.fsti.checked",
"Pulse.Checker.Base.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Printf.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked"
],
"interface_file": true,
"source_file": "Pulse.Checker.Bind.fst"
} | [] | [
"Pulse.Typing.Env.env",
"Pulse.Syntax.Base.term",
"Pulse.Typing.tot_typing",
"Pulse.Syntax.Base.tm_vprop",
"Pulse.Typing.post_hint_opt",
"Pulse.Syntax.Base.ppname",
"Pulse.Syntax.Base.st_term",
"Prims.b2t",
"Pulse.Syntax.Base.uu___is_Tm_TotBind",
"Pulse.Syntax.Base.__proj__Mkst_term__item__term",
"Pulse.Checker.Base.check_t",
"Pulse.Syntax.Base.binder",
"FStar.Stubs.TypeChecker.Core.tot_or_ghost",
"Pulse.Syntax.Base.universe",
"Pulse.Typing.universe_of",
"Pulse.Typing.typing",
"Pulse.Checker.Base.checker_result_for_st_typing",
"Pulse.Checker.Base.checker_result_t",
"Pulse.Typing.Combinators.st_typing_in_ctxt",
"FStar.Pervasives.Native.Some",
"Pulse.Typing.post_hint_t",
"FStar.Pervasives.Native.__proj__Some__item__v",
"Pulse.Checker.Base.apply_checker_result_k",
"Pulse.Syntax.Naming.open_st_term_nv",
"Pulse.Syntax.Base.mk_ppname_no_range",
"Pulse.Typing.Metatheory.tot_typing_weakening_single",
"Prims.eq2",
"FStar.Reflection.Typing.fstar_top_env",
"Pulse.Typing.Env.fstar_env",
"Pulse.Typing.Env.push_binding",
"FStar.Pervasives.Native.fst",
"Pulse.Syntax.Base.var",
"FStar.Pervasives.Native.tuple2",
"FStar.Pervasives.Native.Mktuple2",
"Pulse.Syntax.Base.__proj__Mkbinder__item__binder_ppname",
"Pulse.Checker.Base.continuation_elaborator",
"FStar.Pervasives.Native.snd",
"Pulse.Syntax.Base.ppname_default",
"Pulse.Checker.Base.continuation_elaborator_with_let",
"Pulse.Syntax.Base.Mkbinder",
"Prims.l_not",
"FStar.Set.mem",
"Pulse.Typing.Env.dom",
"Pulse.Typing.Env.fresh",
"Prims.dtuple2",
"Pulse.Checker.Pure.check_term_with_expected_type_and_effect",
"Pulse.Syntax.Pure.tm_refine",
"Pulse.Typing.mk_eq2",
"Pulse.Syntax.Pure.null_bvar",
"FStar.Pervasives.dtuple5",
"Pulse.Syntax.Base.__proj__Mkterm__item__t",
"Pulse.Checker.Pure.check_term_and_type",
"Pulse.Syntax.Base.term'",
"Pulse.Syntax.Base.typ",
"FStar.Pervasives.Mkdtuple5",
"Prims.Mkdtuple2",
"FStar.Pervasives.dtuple3",
"Pulse.Checker.Pure.check_term_with_expected_type",
"Pulse.Checker.Pure.check_universe",
"Pulse.Checker.Pure.check_tot_term",
"Pulse.Syntax.Base.__proj__Mkbinder__item__binder_ty",
"Pulse.Syntax.Base.st_term'",
"Prims.unit",
"FStar.Pervasives.Native.uu___is_None",
"Pulse.Typing.Env.fail",
"Pulse.Syntax.Base.range",
"Pulse.Syntax.Base.__proj__Mkst_term__item__range",
"Prims.bool",
"Pulse.Typing.Env.push_context"
] | [] | module Pulse.Checker.Bind
open Pulse.Syntax
open Pulse.Typing
open Pulse.Typing.Combinators
open Pulse.Checker.Base
open Pulse.Checker.Pure
open Pulse.Checker.Prover
module T = FStar.Tactics.V2
module P = Pulse.Syntax.Printer
module Metatheory = Pulse.Typing.Metatheory
module PS = Pulse.Checker.Prover.Substs
#push-options "--z3rlimit_factor 4 --fuel 1 --ifuel 1"
let check_bind
(g:env)
(ctxt:vprop)
(ctxt_typing:tot_typing g ctxt tm_vprop)
(post_hint:post_hint_opt g)
(res_ppname:ppname)
(t:st_term {Tm_Bind? t.term})
(check:check_t)
: T.Tac (checker_result_t g ctxt post_hint) =
let g = Pulse.Typing.Env.push_context g "check_bind" t.range in
debug_prover g (fun _ ->
Printf.sprintf "checking bind:\n%s\n" (P.st_term_to_string t));
if None? post_hint
then fail g (Some t.range) "check_bind: post hint is not set, please add an annotation";
let Tm_Bind { binder; head=e1; body=e2 } = t.term in
if Tm_Admit? e1.term
then ( //Discard the continuation if the head is an admit
check g ctxt ctxt_typing post_hint res_ppname e1
)
else (
let (| x, g1, _, (| ctxt', ctxt'_typing |), k1 |) =
let r = check g ctxt ctxt_typing None binder.binder_ppname e1 in
(* Check that the type matches the annotation, if any *)
let ty = binder.binder_ty in
begin match ty.t with
| Tm_Unknown -> ()
| _ ->
let (| ty, _, _ |) = check_tot_term g ty in //elaborate it first
let (| _, _, (| _, t, _ |), _, _ |) = r in
// TODO: once we have the rename operation then we should
// ditch this check and just elaborate the bind
// let x : ty = stapp in ...
// to
// let x0 = stapp in
// let x : t = x0 in
// rename x0 x; ...
// to leverage the pure case
if not (eq_tm ty t) then
fail g (Some e1.range)
(Printf.sprintf "Type mismatch: expected %s, got %s" (P.term_to_string ty) (P.term_to_string t))
end;
r
in
let d : st_typing_in_ctxt g1 ctxt' post_hint =
let ppname = mk_ppname_no_range "_bind_c" in
let r =
check g1 ctxt' ctxt'_typing post_hint ppname (open_st_term_nv e2 (binder.binder_ppname, x)) in
apply_checker_result_k #_ #_ #(Some?.v post_hint) r ppname in
let d : st_typing_in_ctxt g ctxt post_hint = k1 post_hint d in
checker_result_for_st_typing d res_ppname
)
let check_tot_bind
(g:env)
(pre:term)
(pre_typing:tot_typing g pre tm_vprop)
(post_hint:post_hint_opt g)
(res_ppname:ppname)
(t:st_term { Tm_TotBind? t.term }) | false | false | Pulse.Checker.Bind.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 1,
"initial_ifuel": 1,
"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": 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": 4,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val check_tot_bind
(g:env)
(pre:term)
(pre_typing:tot_typing g pre tm_vprop)
(post_hint:post_hint_opt g)
(res_ppname:ppname)
(t:st_term { Tm_TotBind? t.term })
(check:check_t)
: T.Tac (checker_result_t g pre post_hint) | [] | Pulse.Checker.Bind.check_tot_bind | {
"file_name": "lib/steel/pulse/Pulse.Checker.Bind.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
g: Pulse.Typing.Env.env ->
pre: Pulse.Syntax.Base.term ->
pre_typing: Pulse.Typing.tot_typing g pre Pulse.Syntax.Base.tm_vprop ->
post_hint: Pulse.Typing.post_hint_opt g ->
res_ppname: Pulse.Syntax.Base.ppname ->
t: Pulse.Syntax.Base.st_term{Tm_TotBind? (Mkst_term?.term t)} ->
check: Pulse.Checker.Base.check_t
-> FStar.Tactics.Effect.Tac (Pulse.Checker.Base.checker_result_t g pre post_hint) | {
"end_col": 43,
"end_line": 131,
"start_col": 46,
"start_line": 80
} |
Prims.Tot | [
{
"abbrev": true,
"full_module": "FStar.Order",
"short_module": "O"
},
{
"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.Reflection.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.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
}
] | false | let ne e1 e2 = CompProp e1 C_Ne e2 | let ne e1 e2 = | false | null | false | CompProp e1 C_Ne e2 | {
"checked_file": "FStar.Reflection.V2.Arith.fst.checked",
"dependencies": [
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Order.fst.checked",
"FStar.List.Tot.Base.fst.checked",
"FStar.List.Tot.fst.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Reflection.V2.Arith.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Arith.expr",
"FStar.Reflection.V2.Arith.CompProp",
"FStar.Reflection.V2.Arith.C_Ne",
"FStar.Reflection.V2.Arith.prop"
] | [] | (*
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.Reflection.V2.Arith
open FStar.Tactics.V2
open FStar.Reflection.V2
module O = FStar.Order
(*
* Simple decision procedure to decide if a term is an "arithmetic
* proposition", by which we mean a simple relation between two
* arithmetic expressions (each representing integers or naturals)
*
* Main use case: deciding, in a tactic, if a goal is an arithmetic
* expression and applying a custom decision procedure there (instead of
* feeding to the SMT solver)
*)
noeq
type expr =
| Lit : int -> expr
// atom, contains both a numerical ID and the actual term encountered
| Atom : nat -> term -> expr
| Plus : expr -> expr -> expr
| Mult : expr -> expr -> expr
| Minus : expr -> expr -> expr
| Land : expr -> expr -> expr
| Lxor : expr -> expr -> expr
| Lor : expr -> expr -> expr
| Ladd : expr -> expr -> expr
| Lsub : expr -> expr -> expr
| Shl : expr -> expr -> expr
| Shr : expr -> expr -> expr
| Neg : expr -> expr
| Udiv : expr -> expr -> expr
| Umod : expr -> expr -> expr
| MulMod : expr -> expr -> expr
| NatToBv : expr -> expr
// | Div : expr -> expr -> expr // Add this one?
noeq
type connective =
| C_Lt | C_Eq | C_Gt | C_Ne
noeq
type prop =
| CompProp : expr -> connective -> expr -> prop
| AndProp : prop -> prop -> prop
| OrProp : prop -> prop -> prop
| NotProp : prop -> prop
let lt e1 e2 = CompProp e1 C_Lt e2
let le e1 e2 = CompProp e1 C_Lt (Plus (Lit 1) e2) | false | true | FStar.Reflection.V2.Arith.fst | {
"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"
} | null | val ne : e1: FStar.Reflection.V2.Arith.expr -> e2: FStar.Reflection.V2.Arith.expr
-> FStar.Reflection.V2.Arith.prop | [] | FStar.Reflection.V2.Arith.ne | {
"file_name": "ulib/FStar.Reflection.V2.Arith.fst",
"git_rev": "f4cbb7a38d67eeb13fbdb2f4fb8a44a65cbcdc1f",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | e1: FStar.Reflection.V2.Arith.expr -> e2: FStar.Reflection.V2.Arith.expr
-> FStar.Reflection.V2.Arith.prop | {
"end_col": 34,
"end_line": 68,
"start_col": 15,
"start_line": 68
} |
|
Prims.Tot | [
{
"abbrev": true,
"full_module": "FStar.Order",
"short_module": "O"
},
{
"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.Reflection.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.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
}
] | false | let lt e1 e2 = CompProp e1 C_Lt e2 | let lt e1 e2 = | false | null | false | CompProp e1 C_Lt e2 | {
"checked_file": "FStar.Reflection.V2.Arith.fst.checked",
"dependencies": [
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Order.fst.checked",
"FStar.List.Tot.Base.fst.checked",
"FStar.List.Tot.fst.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Reflection.V2.Arith.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Arith.expr",
"FStar.Reflection.V2.Arith.CompProp",
"FStar.Reflection.V2.Arith.C_Lt",
"FStar.Reflection.V2.Arith.prop"
] | [] | (*
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.Reflection.V2.Arith
open FStar.Tactics.V2
open FStar.Reflection.V2
module O = FStar.Order
(*
* Simple decision procedure to decide if a term is an "arithmetic
* proposition", by which we mean a simple relation between two
* arithmetic expressions (each representing integers or naturals)
*
* Main use case: deciding, in a tactic, if a goal is an arithmetic
* expression and applying a custom decision procedure there (instead of
* feeding to the SMT solver)
*)
noeq
type expr =
| Lit : int -> expr
// atom, contains both a numerical ID and the actual term encountered
| Atom : nat -> term -> expr
| Plus : expr -> expr -> expr
| Mult : expr -> expr -> expr
| Minus : expr -> expr -> expr
| Land : expr -> expr -> expr
| Lxor : expr -> expr -> expr
| Lor : expr -> expr -> expr
| Ladd : expr -> expr -> expr
| Lsub : expr -> expr -> expr
| Shl : expr -> expr -> expr
| Shr : expr -> expr -> expr
| Neg : expr -> expr
| Udiv : expr -> expr -> expr
| Umod : expr -> expr -> expr
| MulMod : expr -> expr -> expr
| NatToBv : expr -> expr
// | Div : expr -> expr -> expr // Add this one?
noeq
type connective =
| C_Lt | C_Eq | C_Gt | C_Ne
noeq
type prop =
| CompProp : expr -> connective -> expr -> prop
| AndProp : prop -> prop -> prop
| OrProp : prop -> prop -> prop
| NotProp : prop -> prop | false | true | FStar.Reflection.V2.Arith.fst | {
"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"
} | null | val lt : e1: FStar.Reflection.V2.Arith.expr -> e2: FStar.Reflection.V2.Arith.expr
-> FStar.Reflection.V2.Arith.prop | [] | FStar.Reflection.V2.Arith.lt | {
"file_name": "ulib/FStar.Reflection.V2.Arith.fst",
"git_rev": "f4cbb7a38d67eeb13fbdb2f4fb8a44a65cbcdc1f",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | e1: FStar.Reflection.V2.Arith.expr -> e2: FStar.Reflection.V2.Arith.expr
-> FStar.Reflection.V2.Arith.prop | {
"end_col": 34,
"end_line": 65,
"start_col": 15,
"start_line": 65
} |
|
Prims.Tot | [
{
"abbrev": true,
"full_module": "FStar.Order",
"short_module": "O"
},
{
"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.Reflection.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.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
}
] | false | let ge e1 e2 = CompProp (Plus (Lit 1) e1) C_Gt e2 | let ge e1 e2 = | false | null | false | CompProp (Plus (Lit 1) e1) C_Gt e2 | {
"checked_file": "FStar.Reflection.V2.Arith.fst.checked",
"dependencies": [
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Order.fst.checked",
"FStar.List.Tot.Base.fst.checked",
"FStar.List.Tot.fst.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Reflection.V2.Arith.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Arith.expr",
"FStar.Reflection.V2.Arith.CompProp",
"FStar.Reflection.V2.Arith.Plus",
"FStar.Reflection.V2.Arith.Lit",
"FStar.Reflection.V2.Arith.C_Gt",
"FStar.Reflection.V2.Arith.prop"
] | [] | (*
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.Reflection.V2.Arith
open FStar.Tactics.V2
open FStar.Reflection.V2
module O = FStar.Order
(*
* Simple decision procedure to decide if a term is an "arithmetic
* proposition", by which we mean a simple relation between two
* arithmetic expressions (each representing integers or naturals)
*
* Main use case: deciding, in a tactic, if a goal is an arithmetic
* expression and applying a custom decision procedure there (instead of
* feeding to the SMT solver)
*)
noeq
type expr =
| Lit : int -> expr
// atom, contains both a numerical ID and the actual term encountered
| Atom : nat -> term -> expr
| Plus : expr -> expr -> expr
| Mult : expr -> expr -> expr
| Minus : expr -> expr -> expr
| Land : expr -> expr -> expr
| Lxor : expr -> expr -> expr
| Lor : expr -> expr -> expr
| Ladd : expr -> expr -> expr
| Lsub : expr -> expr -> expr
| Shl : expr -> expr -> expr
| Shr : expr -> expr -> expr
| Neg : expr -> expr
| Udiv : expr -> expr -> expr
| Umod : expr -> expr -> expr
| MulMod : expr -> expr -> expr
| NatToBv : expr -> expr
// | Div : expr -> expr -> expr // Add this one?
noeq
type connective =
| C_Lt | C_Eq | C_Gt | C_Ne
noeq
type prop =
| CompProp : expr -> connective -> expr -> prop
| AndProp : prop -> prop -> prop
| OrProp : prop -> prop -> prop
| NotProp : prop -> prop
let lt e1 e2 = CompProp e1 C_Lt e2
let le e1 e2 = CompProp e1 C_Lt (Plus (Lit 1) e2)
let eq e1 e2 = CompProp e1 C_Eq e2
let ne e1 e2 = CompProp e1 C_Ne e2 | false | true | FStar.Reflection.V2.Arith.fst | {
"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"
} | null | val ge : e1: FStar.Reflection.V2.Arith.expr -> e2: FStar.Reflection.V2.Arith.expr
-> FStar.Reflection.V2.Arith.prop | [] | FStar.Reflection.V2.Arith.ge | {
"file_name": "ulib/FStar.Reflection.V2.Arith.fst",
"git_rev": "f4cbb7a38d67eeb13fbdb2f4fb8a44a65cbcdc1f",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | e1: FStar.Reflection.V2.Arith.expr -> e2: FStar.Reflection.V2.Arith.expr
-> FStar.Reflection.V2.Arith.prop | {
"end_col": 49,
"end_line": 70,
"start_col": 15,
"start_line": 70
} |
|
Prims.Tot | [
{
"abbrev": true,
"full_module": "FStar.Order",
"short_module": "O"
},
{
"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.Reflection.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.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
}
] | false | let tm a = st -> Tac (either string (a * st)) | let tm a = | false | null | false | st -> Tac (either string (a * st)) | {
"checked_file": "FStar.Reflection.V2.Arith.fst.checked",
"dependencies": [
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Order.fst.checked",
"FStar.List.Tot.Base.fst.checked",
"FStar.List.Tot.fst.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Reflection.V2.Arith.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Arith.st",
"FStar.Pervasives.either",
"Prims.string",
"FStar.Pervasives.Native.tuple2"
] | [] | (*
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.Reflection.V2.Arith
open FStar.Tactics.V2
open FStar.Reflection.V2
module O = FStar.Order
(*
* Simple decision procedure to decide if a term is an "arithmetic
* proposition", by which we mean a simple relation between two
* arithmetic expressions (each representing integers or naturals)
*
* Main use case: deciding, in a tactic, if a goal is an arithmetic
* expression and applying a custom decision procedure there (instead of
* feeding to the SMT solver)
*)
noeq
type expr =
| Lit : int -> expr
// atom, contains both a numerical ID and the actual term encountered
| Atom : nat -> term -> expr
| Plus : expr -> expr -> expr
| Mult : expr -> expr -> expr
| Minus : expr -> expr -> expr
| Land : expr -> expr -> expr
| Lxor : expr -> expr -> expr
| Lor : expr -> expr -> expr
| Ladd : expr -> expr -> expr
| Lsub : expr -> expr -> expr
| Shl : expr -> expr -> expr
| Shr : expr -> expr -> expr
| Neg : expr -> expr
| Udiv : expr -> expr -> expr
| Umod : expr -> expr -> expr
| MulMod : expr -> expr -> expr
| NatToBv : expr -> expr
// | Div : expr -> expr -> expr // Add this one?
noeq
type connective =
| C_Lt | C_Eq | C_Gt | C_Ne
noeq
type prop =
| CompProp : expr -> connective -> expr -> prop
| AndProp : prop -> prop -> prop
| OrProp : prop -> prop -> prop
| NotProp : prop -> prop
let lt e1 e2 = CompProp e1 C_Lt e2
let le e1 e2 = CompProp e1 C_Lt (Plus (Lit 1) e2)
let eq e1 e2 = CompProp e1 C_Eq e2
let ne e1 e2 = CompProp e1 C_Ne e2
let gt e1 e2 = CompProp e1 C_Gt e2
let ge e1 e2 = CompProp (Plus (Lit 1) e1) C_Gt e2
(* Define a traversal monad! Makes exception handling and counter-keeping easy *) | false | true | FStar.Reflection.V2.Arith.fst | {
"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"
} | null | val tm : a: Type -> Type0 | [] | FStar.Reflection.V2.Arith.tm | {
"file_name": "ulib/FStar.Reflection.V2.Arith.fst",
"git_rev": "f4cbb7a38d67eeb13fbdb2f4fb8a44a65cbcdc1f",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | a: Type -> Type0 | {
"end_col": 53,
"end_line": 74,
"start_col": 19,
"start_line": 74
} |
|
Prims.Tot | val fail : (#a:Type) -> string -> tm a | [
{
"abbrev": true,
"full_module": "FStar.Order",
"short_module": "O"
},
{
"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.Reflection.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.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
}
] | false | let fail #a s = fun i -> Inl s | val fail : (#a:Type) -> string -> tm a
let fail #a s = | false | null | false | fun i -> Inl s | {
"checked_file": "FStar.Reflection.V2.Arith.fst.checked",
"dependencies": [
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Order.fst.checked",
"FStar.List.Tot.Base.fst.checked",
"FStar.List.Tot.fst.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Reflection.V2.Arith.fst"
} | [
"total"
] | [
"Prims.string",
"FStar.Reflection.V2.Arith.st",
"FStar.Pervasives.Inl",
"FStar.Pervasives.Native.tuple2",
"FStar.Pervasives.either"
] | [] | (*
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.Reflection.V2.Arith
open FStar.Tactics.V2
open FStar.Reflection.V2
module O = FStar.Order
(*
* Simple decision procedure to decide if a term is an "arithmetic
* proposition", by which we mean a simple relation between two
* arithmetic expressions (each representing integers or naturals)
*
* Main use case: deciding, in a tactic, if a goal is an arithmetic
* expression and applying a custom decision procedure there (instead of
* feeding to the SMT solver)
*)
noeq
type expr =
| Lit : int -> expr
// atom, contains both a numerical ID and the actual term encountered
| Atom : nat -> term -> expr
| Plus : expr -> expr -> expr
| Mult : expr -> expr -> expr
| Minus : expr -> expr -> expr
| Land : expr -> expr -> expr
| Lxor : expr -> expr -> expr
| Lor : expr -> expr -> expr
| Ladd : expr -> expr -> expr
| Lsub : expr -> expr -> expr
| Shl : expr -> expr -> expr
| Shr : expr -> expr -> expr
| Neg : expr -> expr
| Udiv : expr -> expr -> expr
| Umod : expr -> expr -> expr
| MulMod : expr -> expr -> expr
| NatToBv : expr -> expr
// | Div : expr -> expr -> expr // Add this one?
noeq
type connective =
| C_Lt | C_Eq | C_Gt | C_Ne
noeq
type prop =
| CompProp : expr -> connective -> expr -> prop
| AndProp : prop -> prop -> prop
| OrProp : prop -> prop -> prop
| NotProp : prop -> prop
let lt e1 e2 = CompProp e1 C_Lt e2
let le e1 e2 = CompProp e1 C_Lt (Plus (Lit 1) e2)
let eq e1 e2 = CompProp e1 C_Eq e2
let ne e1 e2 = CompProp e1 C_Ne e2
let gt e1 e2 = CompProp e1 C_Gt e2
let ge e1 e2 = CompProp (Plus (Lit 1) e1) C_Gt e2
(* Define a traversal monad! Makes exception handling and counter-keeping easy *)
private let st = p:(nat * list term){fst p == List.Tot.Base.length (snd p)}
private let tm a = st -> Tac (either string (a * st))
private let return (x:'a) : tm 'a = fun i -> Inr (x, i)
private let (let!) (m : tm 'a) (f : 'a -> tm 'b) : tm 'b =
fun i -> match m i with
| Inr (x, j) -> f x j
| s -> Inl (Inl?.v s) // why? To have a catch-all pattern and thus an easy WP
val lift : ('a -> Tac 'b) -> ('a -> tm 'b)
let lift f x st =
Inr (f x, st)
val liftM : ('a -> 'b) -> (tm 'a -> tm 'b)
let liftM f x =
let! xx = x in
return (f xx)
val liftM2 : ('a -> 'b -> 'c) -> (tm 'a -> tm 'b -> tm 'c)
let liftM2 f x y =
let! xx = x in
let! yy = y in
return (f xx yy)
val liftM3 : ('a -> 'b -> 'c -> 'd) -> (tm 'a -> tm 'b -> tm 'c -> tm 'd)
let liftM3 f x y z =
let! xx = x in
let! yy = y in
let! zz = z in
return (f xx yy zz)
private let rec find_idx (f : 'a -> Tac bool) (l : list 'a) : Tac (option ((n:nat{n < List.Tot.Base.length l}) * 'a)) =
match l with
| [] -> None
| x::xs ->
if f x
then Some (0, x)
else begin match find_idx f xs with
| None -> None
| Some (i, x) -> Some (i+1, x)
end
private let atom (t:term) : tm expr = fun (n, atoms) ->
match find_idx (term_eq_old t) atoms with
| None -> Inr (Atom n t, (n + 1, t::atoms))
| Some (i, t) -> Inr (Atom (n - 1 - i) t, (n, atoms)) | false | false | FStar.Reflection.V2.Arith.fst | {
"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"
} | null | val fail : (#a:Type) -> string -> tm a | [] | FStar.Reflection.V2.Arith.fail | {
"file_name": "ulib/FStar.Reflection.V2.Arith.fst",
"git_rev": "f4cbb7a38d67eeb13fbdb2f4fb8a44a65cbcdc1f",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | s: Prims.string -> FStar.Reflection.V2.Arith.tm a | {
"end_col": 38,
"end_line": 121,
"start_col": 24,
"start_line": 121
} |
Prims.Tot | [
{
"abbrev": true,
"full_module": "FStar.Order",
"short_module": "O"
},
{
"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.Reflection.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.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
}
] | false | let st = p:(nat * list term){fst p == List.Tot.Base.length (snd p)} | let st = | false | null | false | p: (nat * list term){fst p == List.Tot.Base.length (snd p)} | {
"checked_file": "FStar.Reflection.V2.Arith.fst.checked",
"dependencies": [
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Order.fst.checked",
"FStar.List.Tot.Base.fst.checked",
"FStar.List.Tot.fst.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Reflection.V2.Arith.fst"
} | [
"total"
] | [
"FStar.Pervasives.Native.tuple2",
"Prims.nat",
"Prims.list",
"FStar.Reflection.Types.term",
"Prims.eq2",
"FStar.Pervasives.Native.fst",
"FStar.List.Tot.Base.length",
"FStar.Pervasives.Native.snd"
] | [] | (*
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.Reflection.V2.Arith
open FStar.Tactics.V2
open FStar.Reflection.V2
module O = FStar.Order
(*
* Simple decision procedure to decide if a term is an "arithmetic
* proposition", by which we mean a simple relation between two
* arithmetic expressions (each representing integers or naturals)
*
* Main use case: deciding, in a tactic, if a goal is an arithmetic
* expression and applying a custom decision procedure there (instead of
* feeding to the SMT solver)
*)
noeq
type expr =
| Lit : int -> expr
// atom, contains both a numerical ID and the actual term encountered
| Atom : nat -> term -> expr
| Plus : expr -> expr -> expr
| Mult : expr -> expr -> expr
| Minus : expr -> expr -> expr
| Land : expr -> expr -> expr
| Lxor : expr -> expr -> expr
| Lor : expr -> expr -> expr
| Ladd : expr -> expr -> expr
| Lsub : expr -> expr -> expr
| Shl : expr -> expr -> expr
| Shr : expr -> expr -> expr
| Neg : expr -> expr
| Udiv : expr -> expr -> expr
| Umod : expr -> expr -> expr
| MulMod : expr -> expr -> expr
| NatToBv : expr -> expr
// | Div : expr -> expr -> expr // Add this one?
noeq
type connective =
| C_Lt | C_Eq | C_Gt | C_Ne
noeq
type prop =
| CompProp : expr -> connective -> expr -> prop
| AndProp : prop -> prop -> prop
| OrProp : prop -> prop -> prop
| NotProp : prop -> prop
let lt e1 e2 = CompProp e1 C_Lt e2
let le e1 e2 = CompProp e1 C_Lt (Plus (Lit 1) e2)
let eq e1 e2 = CompProp e1 C_Eq e2
let ne e1 e2 = CompProp e1 C_Ne e2
let gt e1 e2 = CompProp e1 C_Gt e2
let ge e1 e2 = CompProp (Plus (Lit 1) e1) C_Gt e2 | false | true | FStar.Reflection.V2.Arith.fst | {
"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"
} | null | val st : Type0 | [] | FStar.Reflection.V2.Arith.st | {
"file_name": "ulib/FStar.Reflection.V2.Arith.fst",
"git_rev": "f4cbb7a38d67eeb13fbdb2f4fb8a44a65cbcdc1f",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | Type0 | {
"end_col": 75,
"end_line": 73,
"start_col": 17,
"start_line": 73
} |
|
Prims.Tot | [
{
"abbrev": true,
"full_module": "FStar.Order",
"short_module": "O"
},
{
"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.Reflection.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.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
}
] | false | let le e1 e2 = CompProp e1 C_Lt (Plus (Lit 1) e2) | let le e1 e2 = | false | null | false | CompProp e1 C_Lt (Plus (Lit 1) e2) | {
"checked_file": "FStar.Reflection.V2.Arith.fst.checked",
"dependencies": [
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Order.fst.checked",
"FStar.List.Tot.Base.fst.checked",
"FStar.List.Tot.fst.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Reflection.V2.Arith.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Arith.expr",
"FStar.Reflection.V2.Arith.CompProp",
"FStar.Reflection.V2.Arith.C_Lt",
"FStar.Reflection.V2.Arith.Plus",
"FStar.Reflection.V2.Arith.Lit",
"FStar.Reflection.V2.Arith.prop"
] | [] | (*
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.Reflection.V2.Arith
open FStar.Tactics.V2
open FStar.Reflection.V2
module O = FStar.Order
(*
* Simple decision procedure to decide if a term is an "arithmetic
* proposition", by which we mean a simple relation between two
* arithmetic expressions (each representing integers or naturals)
*
* Main use case: deciding, in a tactic, if a goal is an arithmetic
* expression and applying a custom decision procedure there (instead of
* feeding to the SMT solver)
*)
noeq
type expr =
| Lit : int -> expr
// atom, contains both a numerical ID and the actual term encountered
| Atom : nat -> term -> expr
| Plus : expr -> expr -> expr
| Mult : expr -> expr -> expr
| Minus : expr -> expr -> expr
| Land : expr -> expr -> expr
| Lxor : expr -> expr -> expr
| Lor : expr -> expr -> expr
| Ladd : expr -> expr -> expr
| Lsub : expr -> expr -> expr
| Shl : expr -> expr -> expr
| Shr : expr -> expr -> expr
| Neg : expr -> expr
| Udiv : expr -> expr -> expr
| Umod : expr -> expr -> expr
| MulMod : expr -> expr -> expr
| NatToBv : expr -> expr
// | Div : expr -> expr -> expr // Add this one?
noeq
type connective =
| C_Lt | C_Eq | C_Gt | C_Ne
noeq
type prop =
| CompProp : expr -> connective -> expr -> prop
| AndProp : prop -> prop -> prop
| OrProp : prop -> prop -> prop
| NotProp : prop -> prop | false | true | FStar.Reflection.V2.Arith.fst | {
"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"
} | null | val le : e1: FStar.Reflection.V2.Arith.expr -> e2: FStar.Reflection.V2.Arith.expr
-> FStar.Reflection.V2.Arith.prop | [] | FStar.Reflection.V2.Arith.le | {
"file_name": "ulib/FStar.Reflection.V2.Arith.fst",
"git_rev": "f4cbb7a38d67eeb13fbdb2f4fb8a44a65cbcdc1f",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | e1: FStar.Reflection.V2.Arith.expr -> e2: FStar.Reflection.V2.Arith.expr
-> FStar.Reflection.V2.Arith.prop | {
"end_col": 49,
"end_line": 66,
"start_col": 15,
"start_line": 66
} |
|
Prims.Tot | [
{
"abbrev": true,
"full_module": "FStar.Order",
"short_module": "O"
},
{
"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.Reflection.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.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
}
] | false | let eq e1 e2 = CompProp e1 C_Eq e2 | let eq e1 e2 = | false | null | false | CompProp e1 C_Eq e2 | {
"checked_file": "FStar.Reflection.V2.Arith.fst.checked",
"dependencies": [
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Order.fst.checked",
"FStar.List.Tot.Base.fst.checked",
"FStar.List.Tot.fst.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Reflection.V2.Arith.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Arith.expr",
"FStar.Reflection.V2.Arith.CompProp",
"FStar.Reflection.V2.Arith.C_Eq",
"FStar.Reflection.V2.Arith.prop"
] | [] | (*
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.Reflection.V2.Arith
open FStar.Tactics.V2
open FStar.Reflection.V2
module O = FStar.Order
(*
* Simple decision procedure to decide if a term is an "arithmetic
* proposition", by which we mean a simple relation between two
* arithmetic expressions (each representing integers or naturals)
*
* Main use case: deciding, in a tactic, if a goal is an arithmetic
* expression and applying a custom decision procedure there (instead of
* feeding to the SMT solver)
*)
noeq
type expr =
| Lit : int -> expr
// atom, contains both a numerical ID and the actual term encountered
| Atom : nat -> term -> expr
| Plus : expr -> expr -> expr
| Mult : expr -> expr -> expr
| Minus : expr -> expr -> expr
| Land : expr -> expr -> expr
| Lxor : expr -> expr -> expr
| Lor : expr -> expr -> expr
| Ladd : expr -> expr -> expr
| Lsub : expr -> expr -> expr
| Shl : expr -> expr -> expr
| Shr : expr -> expr -> expr
| Neg : expr -> expr
| Udiv : expr -> expr -> expr
| Umod : expr -> expr -> expr
| MulMod : expr -> expr -> expr
| NatToBv : expr -> expr
// | Div : expr -> expr -> expr // Add this one?
noeq
type connective =
| C_Lt | C_Eq | C_Gt | C_Ne
noeq
type prop =
| CompProp : expr -> connective -> expr -> prop
| AndProp : prop -> prop -> prop
| OrProp : prop -> prop -> prop
| NotProp : prop -> prop
let lt e1 e2 = CompProp e1 C_Lt e2 | false | true | FStar.Reflection.V2.Arith.fst | {
"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"
} | null | val eq : e1: FStar.Reflection.V2.Arith.expr -> e2: FStar.Reflection.V2.Arith.expr
-> FStar.Reflection.V2.Arith.prop | [] | FStar.Reflection.V2.Arith.eq | {
"file_name": "ulib/FStar.Reflection.V2.Arith.fst",
"git_rev": "f4cbb7a38d67eeb13fbdb2f4fb8a44a65cbcdc1f",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | e1: FStar.Reflection.V2.Arith.expr -> e2: FStar.Reflection.V2.Arith.expr
-> FStar.Reflection.V2.Arith.prop | {
"end_col": 34,
"end_line": 67,
"start_col": 15,
"start_line": 67
} |
|
Prims.Tot | val liftM : ('a -> 'b) -> (tm 'a -> tm 'b) | [
{
"abbrev": true,
"full_module": "FStar.Order",
"short_module": "O"
},
{
"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.Reflection.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.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
}
] | false | let liftM f x =
let! xx = x in
return (f xx) | val liftM : ('a -> 'b) -> (tm 'a -> tm 'b)
let liftM f x = | false | null | false | let! xx = x in
return (f xx) | {
"checked_file": "FStar.Reflection.V2.Arith.fst.checked",
"dependencies": [
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Order.fst.checked",
"FStar.List.Tot.Base.fst.checked",
"FStar.List.Tot.fst.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Reflection.V2.Arith.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Arith.tm",
"FStar.Reflection.V2.Arith.op_let_Bang",
"FStar.Reflection.V2.Arith.return"
] | [] | (*
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.Reflection.V2.Arith
open FStar.Tactics.V2
open FStar.Reflection.V2
module O = FStar.Order
(*
* Simple decision procedure to decide if a term is an "arithmetic
* proposition", by which we mean a simple relation between two
* arithmetic expressions (each representing integers or naturals)
*
* Main use case: deciding, in a tactic, if a goal is an arithmetic
* expression and applying a custom decision procedure there (instead of
* feeding to the SMT solver)
*)
noeq
type expr =
| Lit : int -> expr
// atom, contains both a numerical ID and the actual term encountered
| Atom : nat -> term -> expr
| Plus : expr -> expr -> expr
| Mult : expr -> expr -> expr
| Minus : expr -> expr -> expr
| Land : expr -> expr -> expr
| Lxor : expr -> expr -> expr
| Lor : expr -> expr -> expr
| Ladd : expr -> expr -> expr
| Lsub : expr -> expr -> expr
| Shl : expr -> expr -> expr
| Shr : expr -> expr -> expr
| Neg : expr -> expr
| Udiv : expr -> expr -> expr
| Umod : expr -> expr -> expr
| MulMod : expr -> expr -> expr
| NatToBv : expr -> expr
// | Div : expr -> expr -> expr // Add this one?
noeq
type connective =
| C_Lt | C_Eq | C_Gt | C_Ne
noeq
type prop =
| CompProp : expr -> connective -> expr -> prop
| AndProp : prop -> prop -> prop
| OrProp : prop -> prop -> prop
| NotProp : prop -> prop
let lt e1 e2 = CompProp e1 C_Lt e2
let le e1 e2 = CompProp e1 C_Lt (Plus (Lit 1) e2)
let eq e1 e2 = CompProp e1 C_Eq e2
let ne e1 e2 = CompProp e1 C_Ne e2
let gt e1 e2 = CompProp e1 C_Gt e2
let ge e1 e2 = CompProp (Plus (Lit 1) e1) C_Gt e2
(* Define a traversal monad! Makes exception handling and counter-keeping easy *)
private let st = p:(nat * list term){fst p == List.Tot.Base.length (snd p)}
private let tm a = st -> Tac (either string (a * st))
private let return (x:'a) : tm 'a = fun i -> Inr (x, i)
private let (let!) (m : tm 'a) (f : 'a -> tm 'b) : tm 'b =
fun i -> match m i with
| Inr (x, j) -> f x j
| s -> Inl (Inl?.v s) // why? To have a catch-all pattern and thus an easy WP
val lift : ('a -> Tac 'b) -> ('a -> tm 'b)
let lift f x st =
Inr (f x, st)
val liftM : ('a -> 'b) -> (tm 'a -> tm 'b) | false | false | FStar.Reflection.V2.Arith.fst | {
"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"
} | null | val liftM : ('a -> 'b) -> (tm 'a -> tm 'b) | [] | FStar.Reflection.V2.Arith.liftM | {
"file_name": "ulib/FStar.Reflection.V2.Arith.fst",
"git_rev": "f4cbb7a38d67eeb13fbdb2f4fb8a44a65cbcdc1f",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | f: (_: 'a -> 'b) -> _: FStar.Reflection.V2.Arith.tm 'a -> FStar.Reflection.V2.Arith.tm 'b | {
"end_col": 17,
"end_line": 88,
"start_col": 4,
"start_line": 87
} |
Prims.Tot | val lift : ('a -> Tac 'b) -> ('a -> tm 'b) | [
{
"abbrev": true,
"full_module": "FStar.Order",
"short_module": "O"
},
{
"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.Reflection.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.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
}
] | false | let lift f x st =
Inr (f x, st) | val lift : ('a -> Tac 'b) -> ('a -> tm 'b)
let lift f x st = | false | null | false | Inr (f x, st) | {
"checked_file": "FStar.Reflection.V2.Arith.fst.checked",
"dependencies": [
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Order.fst.checked",
"FStar.List.Tot.Base.fst.checked",
"FStar.List.Tot.fst.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Reflection.V2.Arith.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Arith.st",
"FStar.Pervasives.Inr",
"Prims.string",
"FStar.Pervasives.Native.tuple2",
"FStar.Pervasives.either",
"FStar.Pervasives.Native.Mktuple2"
] | [] | (*
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.Reflection.V2.Arith
open FStar.Tactics.V2
open FStar.Reflection.V2
module O = FStar.Order
(*
* Simple decision procedure to decide if a term is an "arithmetic
* proposition", by which we mean a simple relation between two
* arithmetic expressions (each representing integers or naturals)
*
* Main use case: deciding, in a tactic, if a goal is an arithmetic
* expression and applying a custom decision procedure there (instead of
* feeding to the SMT solver)
*)
noeq
type expr =
| Lit : int -> expr
// atom, contains both a numerical ID and the actual term encountered
| Atom : nat -> term -> expr
| Plus : expr -> expr -> expr
| Mult : expr -> expr -> expr
| Minus : expr -> expr -> expr
| Land : expr -> expr -> expr
| Lxor : expr -> expr -> expr
| Lor : expr -> expr -> expr
| Ladd : expr -> expr -> expr
| Lsub : expr -> expr -> expr
| Shl : expr -> expr -> expr
| Shr : expr -> expr -> expr
| Neg : expr -> expr
| Udiv : expr -> expr -> expr
| Umod : expr -> expr -> expr
| MulMod : expr -> expr -> expr
| NatToBv : expr -> expr
// | Div : expr -> expr -> expr // Add this one?
noeq
type connective =
| C_Lt | C_Eq | C_Gt | C_Ne
noeq
type prop =
| CompProp : expr -> connective -> expr -> prop
| AndProp : prop -> prop -> prop
| OrProp : prop -> prop -> prop
| NotProp : prop -> prop
let lt e1 e2 = CompProp e1 C_Lt e2
let le e1 e2 = CompProp e1 C_Lt (Plus (Lit 1) e2)
let eq e1 e2 = CompProp e1 C_Eq e2
let ne e1 e2 = CompProp e1 C_Ne e2
let gt e1 e2 = CompProp e1 C_Gt e2
let ge e1 e2 = CompProp (Plus (Lit 1) e1) C_Gt e2
(* Define a traversal monad! Makes exception handling and counter-keeping easy *)
private let st = p:(nat * list term){fst p == List.Tot.Base.length (snd p)}
private let tm a = st -> Tac (either string (a * st))
private let return (x:'a) : tm 'a = fun i -> Inr (x, i)
private let (let!) (m : tm 'a) (f : 'a -> tm 'b) : tm 'b =
fun i -> match m i with
| Inr (x, j) -> f x j
| s -> Inl (Inl?.v s) // why? To have a catch-all pattern and thus an easy WP
val lift : ('a -> Tac 'b) -> ('a -> tm 'b) | false | false | FStar.Reflection.V2.Arith.fst | {
"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"
} | null | val lift : ('a -> Tac 'b) -> ('a -> tm 'b) | [] | FStar.Reflection.V2.Arith.lift | {
"file_name": "ulib/FStar.Reflection.V2.Arith.fst",
"git_rev": "f4cbb7a38d67eeb13fbdb2f4fb8a44a65cbcdc1f",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | f: (_: 'a -> FStar.Tactics.Effect.Tac 'b) -> _: 'a -> FStar.Reflection.V2.Arith.tm 'b | {
"end_col": 17,
"end_line": 83,
"start_col": 4,
"start_line": 83
} |
Prims.Tot | val return (x: 'a) : tm 'a | [
{
"abbrev": true,
"full_module": "FStar.Order",
"short_module": "O"
},
{
"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.Reflection.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.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
}
] | false | let return (x:'a) : tm 'a = fun i -> Inr (x, i) | val return (x: 'a) : tm 'a
let return (x: 'a) : tm 'a = | false | null | false | fun i -> Inr (x, i) | {
"checked_file": "FStar.Reflection.V2.Arith.fst.checked",
"dependencies": [
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Order.fst.checked",
"FStar.List.Tot.Base.fst.checked",
"FStar.List.Tot.fst.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Reflection.V2.Arith.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Arith.st",
"FStar.Pervasives.Inr",
"Prims.string",
"FStar.Pervasives.Native.tuple2",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Pervasives.either",
"FStar.Reflection.V2.Arith.tm"
] | [] | (*
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.Reflection.V2.Arith
open FStar.Tactics.V2
open FStar.Reflection.V2
module O = FStar.Order
(*
* Simple decision procedure to decide if a term is an "arithmetic
* proposition", by which we mean a simple relation between two
* arithmetic expressions (each representing integers or naturals)
*
* Main use case: deciding, in a tactic, if a goal is an arithmetic
* expression and applying a custom decision procedure there (instead of
* feeding to the SMT solver)
*)
noeq
type expr =
| Lit : int -> expr
// atom, contains both a numerical ID and the actual term encountered
| Atom : nat -> term -> expr
| Plus : expr -> expr -> expr
| Mult : expr -> expr -> expr
| Minus : expr -> expr -> expr
| Land : expr -> expr -> expr
| Lxor : expr -> expr -> expr
| Lor : expr -> expr -> expr
| Ladd : expr -> expr -> expr
| Lsub : expr -> expr -> expr
| Shl : expr -> expr -> expr
| Shr : expr -> expr -> expr
| Neg : expr -> expr
| Udiv : expr -> expr -> expr
| Umod : expr -> expr -> expr
| MulMod : expr -> expr -> expr
| NatToBv : expr -> expr
// | Div : expr -> expr -> expr // Add this one?
noeq
type connective =
| C_Lt | C_Eq | C_Gt | C_Ne
noeq
type prop =
| CompProp : expr -> connective -> expr -> prop
| AndProp : prop -> prop -> prop
| OrProp : prop -> prop -> prop
| NotProp : prop -> prop
let lt e1 e2 = CompProp e1 C_Lt e2
let le e1 e2 = CompProp e1 C_Lt (Plus (Lit 1) e2)
let eq e1 e2 = CompProp e1 C_Eq e2
let ne e1 e2 = CompProp e1 C_Ne e2
let gt e1 e2 = CompProp e1 C_Gt e2
let ge e1 e2 = CompProp (Plus (Lit 1) e1) C_Gt e2
(* Define a traversal monad! Makes exception handling and counter-keeping easy *)
private let st = p:(nat * list term){fst p == List.Tot.Base.length (snd p)} | false | false | FStar.Reflection.V2.Arith.fst | {
"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"
} | null | val return (x: 'a) : tm 'a | [] | FStar.Reflection.V2.Arith.return | {
"file_name": "ulib/FStar.Reflection.V2.Arith.fst",
"git_rev": "f4cbb7a38d67eeb13fbdb2f4fb8a44a65cbcdc1f",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | x: 'a -> FStar.Reflection.V2.Arith.tm 'a | {
"end_col": 55,
"end_line": 75,
"start_col": 36,
"start_line": 75
} |
Prims.Tot | [
{
"abbrev": true,
"full_module": "FStar.Order",
"short_module": "O"
},
{
"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.Reflection.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.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
}
] | false | let gt e1 e2 = CompProp e1 C_Gt e2 | let gt e1 e2 = | false | null | false | CompProp e1 C_Gt e2 | {
"checked_file": "FStar.Reflection.V2.Arith.fst.checked",
"dependencies": [
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Order.fst.checked",
"FStar.List.Tot.Base.fst.checked",
"FStar.List.Tot.fst.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Reflection.V2.Arith.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Arith.expr",
"FStar.Reflection.V2.Arith.CompProp",
"FStar.Reflection.V2.Arith.C_Gt",
"FStar.Reflection.V2.Arith.prop"
] | [] | (*
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.Reflection.V2.Arith
open FStar.Tactics.V2
open FStar.Reflection.V2
module O = FStar.Order
(*
* Simple decision procedure to decide if a term is an "arithmetic
* proposition", by which we mean a simple relation between two
* arithmetic expressions (each representing integers or naturals)
*
* Main use case: deciding, in a tactic, if a goal is an arithmetic
* expression and applying a custom decision procedure there (instead of
* feeding to the SMT solver)
*)
noeq
type expr =
| Lit : int -> expr
// atom, contains both a numerical ID and the actual term encountered
| Atom : nat -> term -> expr
| Plus : expr -> expr -> expr
| Mult : expr -> expr -> expr
| Minus : expr -> expr -> expr
| Land : expr -> expr -> expr
| Lxor : expr -> expr -> expr
| Lor : expr -> expr -> expr
| Ladd : expr -> expr -> expr
| Lsub : expr -> expr -> expr
| Shl : expr -> expr -> expr
| Shr : expr -> expr -> expr
| Neg : expr -> expr
| Udiv : expr -> expr -> expr
| Umod : expr -> expr -> expr
| MulMod : expr -> expr -> expr
| NatToBv : expr -> expr
// | Div : expr -> expr -> expr // Add this one?
noeq
type connective =
| C_Lt | C_Eq | C_Gt | C_Ne
noeq
type prop =
| CompProp : expr -> connective -> expr -> prop
| AndProp : prop -> prop -> prop
| OrProp : prop -> prop -> prop
| NotProp : prop -> prop
let lt e1 e2 = CompProp e1 C_Lt e2
let le e1 e2 = CompProp e1 C_Lt (Plus (Lit 1) e2)
let eq e1 e2 = CompProp e1 C_Eq e2 | false | true | FStar.Reflection.V2.Arith.fst | {
"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"
} | null | val gt : e1: FStar.Reflection.V2.Arith.expr -> e2: FStar.Reflection.V2.Arith.expr
-> FStar.Reflection.V2.Arith.prop | [] | FStar.Reflection.V2.Arith.gt | {
"file_name": "ulib/FStar.Reflection.V2.Arith.fst",
"git_rev": "f4cbb7a38d67eeb13fbdb2f4fb8a44a65cbcdc1f",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} | e1: FStar.Reflection.V2.Arith.expr -> e2: FStar.Reflection.V2.Arith.expr
-> FStar.Reflection.V2.Arith.prop | {
"end_col": 34,
"end_line": 69,
"start_col": 15,
"start_line": 69
} |
|
Prims.Tot | val liftM2 : ('a -> 'b -> 'c) -> (tm 'a -> tm 'b -> tm 'c) | [
{
"abbrev": true,
"full_module": "FStar.Order",
"short_module": "O"
},
{
"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.Reflection.V2",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Reflection.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
}
] | false | let liftM2 f x y =
let! xx = x in
let! yy = y in
return (f xx yy) | val liftM2 : ('a -> 'b -> 'c) -> (tm 'a -> tm 'b -> tm 'c)
let liftM2 f x y = | false | null | false | let! xx = x in
let! yy = y in
return (f xx yy) | {
"checked_file": "FStar.Reflection.V2.Arith.fst.checked",
"dependencies": [
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.Order.fst.checked",
"FStar.List.Tot.Base.fst.checked",
"FStar.List.Tot.fst.checked",
"FStar.Classical.fsti.checked"
],
"interface_file": false,
"source_file": "FStar.Reflection.V2.Arith.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Arith.tm",
"FStar.Reflection.V2.Arith.op_let_Bang",
"FStar.Reflection.V2.Arith.return"
] | [] | (*
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.Reflection.V2.Arith
open FStar.Tactics.V2
open FStar.Reflection.V2
module O = FStar.Order
(*
* Simple decision procedure to decide if a term is an "arithmetic
* proposition", by which we mean a simple relation between two
* arithmetic expressions (each representing integers or naturals)
*
* Main use case: deciding, in a tactic, if a goal is an arithmetic
* expression and applying a custom decision procedure there (instead of
* feeding to the SMT solver)
*)
noeq
type expr =
| Lit : int -> expr
// atom, contains both a numerical ID and the actual term encountered
| Atom : nat -> term -> expr
| Plus : expr -> expr -> expr
| Mult : expr -> expr -> expr
| Minus : expr -> expr -> expr
| Land : expr -> expr -> expr
| Lxor : expr -> expr -> expr
| Lor : expr -> expr -> expr
| Ladd : expr -> expr -> expr
| Lsub : expr -> expr -> expr
| Shl : expr -> expr -> expr
| Shr : expr -> expr -> expr
| Neg : expr -> expr
| Udiv : expr -> expr -> expr
| Umod : expr -> expr -> expr
| MulMod : expr -> expr -> expr
| NatToBv : expr -> expr
// | Div : expr -> expr -> expr // Add this one?
noeq
type connective =
| C_Lt | C_Eq | C_Gt | C_Ne
noeq
type prop =
| CompProp : expr -> connective -> expr -> prop
| AndProp : prop -> prop -> prop
| OrProp : prop -> prop -> prop
| NotProp : prop -> prop
let lt e1 e2 = CompProp e1 C_Lt e2
let le e1 e2 = CompProp e1 C_Lt (Plus (Lit 1) e2)
let eq e1 e2 = CompProp e1 C_Eq e2
let ne e1 e2 = CompProp e1 C_Ne e2
let gt e1 e2 = CompProp e1 C_Gt e2
let ge e1 e2 = CompProp (Plus (Lit 1) e1) C_Gt e2
(* Define a traversal monad! Makes exception handling and counter-keeping easy *)
private let st = p:(nat * list term){fst p == List.Tot.Base.length (snd p)}
private let tm a = st -> Tac (either string (a * st))
private let return (x:'a) : tm 'a = fun i -> Inr (x, i)
private let (let!) (m : tm 'a) (f : 'a -> tm 'b) : tm 'b =
fun i -> match m i with
| Inr (x, j) -> f x j
| s -> Inl (Inl?.v s) // why? To have a catch-all pattern and thus an easy WP
val lift : ('a -> Tac 'b) -> ('a -> tm 'b)
let lift f x st =
Inr (f x, st)
val liftM : ('a -> 'b) -> (tm 'a -> tm 'b)
let liftM f x =
let! xx = x in
return (f xx)
val liftM2 : ('a -> 'b -> 'c) -> (tm 'a -> tm 'b -> tm 'c) | false | false | FStar.Reflection.V2.Arith.fst | {
"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"
} | null | val liftM2 : ('a -> 'b -> 'c) -> (tm 'a -> tm 'b -> tm 'c) | [] | FStar.Reflection.V2.Arith.liftM2 | {
"file_name": "ulib/FStar.Reflection.V2.Arith.fst",
"git_rev": "f4cbb7a38d67eeb13fbdb2f4fb8a44a65cbcdc1f",
"git_url": "https://github.com/FStarLang/FStar.git",
"project_name": "FStar"
} |
f: (_: 'a -> _: 'b -> 'c) ->
_: FStar.Reflection.V2.Arith.tm 'a ->
_: FStar.Reflection.V2.Arith.tm 'b
-> FStar.Reflection.V2.Arith.tm 'c | {
"end_col": 20,
"end_line": 94,
"start_col": 4,
"start_line": 92
} |
Subsets and Splits